Latest releases: [1.6.0] - 2024-10-25 and [1.5.0] - 2024-10-09
-
new directory
theories/topologywith new files:topology.vbool_topology.vcompact.vconnected.vmatrix_topology.vnat_topology.vorder_topology.vproduct_topology.vpseudometric_structure.vsubspace_topology.vsupremum_topology.vtopology_structure.vuniform_structure.vweak_topology.vnum_topology.vquotient_topology.v
-
in
exp.v:- lemmas
cvgr_expR,cvgn_expR
- lemmas
-
in
trigo.v:- lemmas
derive1_atan,lt_atan,le_atan,cvgy_atan
- lemmas
-
in
lebesgue_measure.v:- lemmas
RintegralZl,RintegralZr,Rintegral_ge0
- lemmas
-
The file
topology.vhas been split into several files in the directorytopology_theory. Unless stated otherwise, definitions, lemmas, etc. have been moved without changes. The same import will work as before,Require Import topology.v. -
in
matrix_topology.v(new file):- lemmas
mx_ball_center,mx_ball_sym,mx_ball_triangle,mx_entourageare nowLocal
- lemmas
-
in
weak_topology.v(new file):- lemmas
wopT,wopI,wop_bigUare nowLocal
- lemmas
-
in
supremum_topology.v(new file):- lemmas
sup_ent_filter,sup_ent_refl,sup_ent_inv,sup_ent_split,sup_ent_nbhsare nowLocal
- lemmas
-
The function
map_pairwas moved fromtopology.vtomathcomp_extra.v. -
in
forms.v:- notation
'e_
- notation
-
in
lebesgue_integral.v:- notation
\x
- notation
- in
lebesgue_measure.v:EFin_measurable_fun->measurable_EFinP
- in
num_topology.v(new file):- lemma
nbhs0_ltgeneralized fromrealTypetorealFieldType
- lemma
- in
pseudometric_structure.v(new file):- definition
cvg_toi_locally(usecvgi_ballPinstead)
- definition
- file
topology.v(contents now in directorytopology)
-
in
mathcomp_extra.v:- lemma
bij_forall
- lemma
-
in
classical_sets.v:- lemma
not_setD1
- lemma
-
in file
classical_orders.v(new file),- new definitions
big_lexi_order,same_prefix,first_diff,big_lexi_le, andstart_with. - new lemmas
same_prefix0,same_prefix_sym,same_prefix_leq,same_prefix_refl,same_prefix_trans,first_diff_sym,first_diff_unique,first_diff_SomeP,first_diff_NoneP,first_diff_lt,first_diff_eq,first_diff_dfwith,big_lexi_le_reflexive,big_lexi_le_anti,big_lexi_le_trans,big_lexi_le_total,start_with_prefix,leEbig_lexi_order,big_lexi_order_prefix_lt,big_lexi_order_prefix_gt,big_lexi_order_between, andbig_lexi_order_interval_prefix.
- new definitions
-
in
filter.v(new file):- lemma
in_nearW
- lemma
-
in
topology.v:- lemma
open_in_nearW
- lemma
-
new file
separation_axioms.v -
in
normedtype.v:- lemma
cvgyNP - lemma
limf_esup_ge0 - lemma
nbhs_left_ltBl - lemma
within_continuous_continuous
- lemma
-
in
sequences.v:- lemma
nneseries_split_cond - lemma
subset_lee_nneseries
- lemma
-
in
exp.v:- lemma
expR_gt1Dx
- lemma
-
in
derive.v:- lemma
exprn_derivable
- lemma
-
in
realfun.v:- lemmas
cvg_pinftyP,cvg_ninftyP
- lemmas
-
in
measure.v:- lemma
measurable_fun_set1 - lemma
measurable_fun_set0
- lemma
-
in
lebesgue_measure.v:- lemma
vitali_coverS - lemma
vitali_theorem_corollary - lemmas
measurable_fun_itv_co,measurable_fun_itv_oc,measurable_fun_itv_cc
- lemma
-
in
lebesgue_integral.v:- lemma
integral_itv_bndoo
- lemma
-
in
ftc.v:- lemmas
increasing_image_oo,decreasing_image_oo,increasing_cvg_at_right_comp,increasing_cvg_at_left_comp,decreasing_cvg_at_right_comp,decreasing_cvg_at_left_comp, - lemma
eq_integral_itv_bounded. - lemmas
integration_by_substitution_decreasing,integration_by_substitution_oppr,integration_by_substitution_increasing
- lemmas
-
theories/topology.vsplit intoclassical/filter.vandtheories/topology.v -
moved from
topology.vtofilter.v- definition
set_system, coercionset_system_to_set - mixin
isFiltered, structuresFiltered,PointedFiltered(with resp. typesfilteredTypeandpfilteredType) - mixin
selfFiltered - factory
hasNbhs - structures
Nbhs,PointedNbhs(with resp. typesnbhsType,pnbhsType) - definitions
filter_from,filter_prod - definitions
prop_near1,prop_near2 - notations
{near _, _},\forall _ \near _, _,near _, _,{near _ & _, _},\forall _ \near _ & _, _,\forall _ & _ \near _, _,\near _ & _, _ - lemmas
nearE,eq_near,nbhs_filterE - module
NbhsFilter(with definitionnbhs_simpl) - definition
cvg_to, notation_ `=>` _ - lemmas
cvg_refl,cvg_trans, notation_ --> _ - definitions
type_of_filter,lim_in,lim - notations
[lim _ in _],[cvg _ in _],cvg - definition
eventually, notation\oo - lemmas
cvg_prod,cvg_in_ex,cvg_ex,cvg_inP,cvgP,cvg_in_toP,cvg_toP,dvg_inP,dvgP,cvg_inNpoint,cvgNpoint - lemmas
nbhs_nearE,near_nbhs,near2_curry,near2_pair,filter_of_nearI - definition
near2E - module
NearNbhs(with (re)definitionnear_simpland ltacnear_simpl) - lemma
near_swap - classes
Filter - lemmas
filter_setT,filterP_strong - structure
filter_on - definition
filter_class - coercion
filter_filter' - structure
pfilter_on - definition
pfilter_class - canonical
pfilter_filter_on - coercion
pfilter_filter_on - definiton
PFilterType - instances
filter_on_Filter,pfilter_on_ProperFilter - lemma
nbhs_filter_onE,near_filter_onE - definition and canonical
trivial_filter_on - lemmas
filter_nbhsT,nearT,filter_not_empty_ex - lemma
filter_ex_subproof, definitionfilter_ex - lemma
filter_getP - record
in_filter - module type
in_filter, modulePropInFilter, notationprop_of, definitionprop_ofE, notation_ \is_near _, definitionis_nearE - lemma
prop_ofP - definition
in_filterT - canonical
in_filterI - lemma
filter_near_of - fact
near_key - lemmas
mark_near,near_acc,near_skip_subproof - tactic notations
near=>,near:,near do _ - ltacs
just_discharge_near,near_skip,under_near,end_near,done - lemmas
have_near,near,nearW,filterE,filter_app,filter_app2,filter_app3,filterS2,filterS3,filter_const,in_filter_from,near_andP,nearP_dep,filter2P,filter_ex2,filter_fromP,filter_fromTP,filter_from_filter,filter_fromT_filter,filter_from_proper,filter_bigI,filter_forall,filter_imply - definition
fmap - lemma
fmapE - notations
_ @[_ --> _],_ @[_ \oo],_ @ _,limn,cvgn - instances
fmap_filter,fmap_proper_filter - definition
fmapi, notations_@[_ --> ],@ _ - lemma
fmapiE - instances
fmapi_filter.fmapi_proper_filter - lemmas
cvg_id,fmap_comp,appfilter,cvg_app,cvgi_app,cvg_comp,cvgi_comp,near_eq_cvg,eq_cvg,eq_is_cvg_in,eq_is_cvg,neari_eq_loc,cvg_near_const - definition
continuous_at, notationcontinuous - lemma
near_fun - definition
globally, lemmaglobally0, instancesglobally_filter,globally_properfilter - definition
frechet_filter, instancesfrechet_properfilter,frechet_properfilter_nat - definition
at_point, instanceat_point_filter - instances
filter_prod_filter,filter_prod_proper, canonicalprod_filter_on - lemmas
filter_prod1,filter_prod2 - definition
in_filter_prod - lemmas
near_pair,cvg_cst,cvg_snd,near_map,near_map2,near_mapi,filter_pair_set,filter_pair_near_of - module export
NearMap - lemmas
filterN,cvg_pair,cvg_comp2 - definition
cvg_to_comp_2 - definition
within, lemmasnear_withinE,withinT,near_withinT,cvg_within,withinET, instancewithin_filter, canonicalwithin_filter_on, lemmafilter_bigI_within - definition
subset_filter, instancesubset_filter_filter, lemmasubset_filter_proper - definition
powerset_filter_from, instancepowerset_filter_from_filter - lemmas
near_small_set,small_set_sub,near_powerset_filter_fromP,powerset_filter_fromP,near_powerset_map,near_powerset_map_monoE - definitions
principal_filter,principal_filter_type - lemmas
principal_filterP,principal_filter_proper - class
UltraFilter, lemmaultraFilterLemma - lemmas
filter_image,proper_image,principal_filter_ultra,in_ultra_setVsetC,ultra_image - instance
smallest_filter_filter - fixpoint
filterI_iter - lemmas
filterI_iter_sub,filterI_iterE - definition
finI_from - lemmas
finI_from_cover,finI_from1,finI_from_countable,finI_fromI,filterI_iter_finI,filterI_iter_finI - definition
finI - lemmas
finI_filter,filter_finI,meets_globallyl,meets_globallyr,meetsxx,proper_meetsxx - instance
eventually_filter, canonicalseventually_filterType,eventually_pfilterType
- definition
-
changed when moved from
topology.vtofilter.vBuild_ProperFilter->Build_ProperFilter_exProperFilter'->ProperFilter- remove notation
ProperFilter
-
moved from
topology.vtomathcomp_extra.v:- lemma
and_prop_in - lemmas
mem_inc_segment,mem_inc_segment
- lemma
-
moved from
topology.vtoboolp.v:- lemmas
bigmax_geP,bigmax_gtP,bigmin_leP,bigmin_ltP
- lemmas
-
moved from
topology.vtoseparation_axioms.v:set_nbhs,set_nbhsP,accessible_space,kolmogorov_space,hausdorff_space,compact_closed,discrete_hausdorff,compact_cluster_set1,compact_precompact,open_hausdorff,hausdorff_accessible,accessible_closed_set1,accessible_kolmogorov,accessible_finite_set_closed,subspace_hausdorff,order_hausdorff,ball_hausdorff,Rhausdorff,close,closeEnbhs,closeEonbhs,close_sym,cvg_close,close_refl,cvgx_close,cvgi_close,cvg_toi_locally_close,closeE,close_eq,cvg_unique,cvg_eq,cvgi_unique,close_cvg,lim_id,lim_near_cst,lim_cst,entourage_close,close_trans,close_cvgxx,cvg_closeP,ball_close,normal_space,regular_space,compact_regular,uniform_regular,totally_disconnected,zero_dimensional,discrete_zero_dimension,zero_dimension_totally_disconnected,zero_dimensional_ray,type,countable_uniform_bounded,countable_uniform,sup_pseudometric,countable_uniformityT,gauge,iter_split_ent,gauge_ent,gauge_filter,gauge_refl,gauge_inv,gauge_split,gauge_countable_uniformity,uniform_pseudometric_sup,perfect_set,perfectTP, andperfectTP_ex. -
in
numfun.v:- lemma
gt0_funeposMrenamed toge0_funeposMand hypothesis weakened from strict to large inequality - lemma
gt0_funenegMrenamed toge0_funenegMand hypothesis weakened from strict to large inequality - lemma
lt0_funeposMrenamed tole0_funeposMand hypothesis weakened from strict to large inequality - lemma
lt0_funenegMrenamed tole0_funenegMand hypothesis weakened from strict to large inequality
- lemma
- in file
topology.v->separation_axioms.vtotally_disconnected_cvg->zero_dimensional_cvg.perfect_set2->perfectTP_ex
-
in
constructive_ereal.v:- lemmas
maxeMr,maxeMl,mineMr,mineMr: hypothesis weakened from strict inequality to large inequality
- lemmas
-
in
sequences.v:- lemma
eseries_mkcond - lemma
nneseries_tail_cvg
- lemma
-
in
exp.v:- lemmas
expR_ge1DxandexpeR_ge1Dx(remove hypothesis) - lemma
le_ln1Dx(weaken hypothesis)
- lemmas
-
in
derive.v:- lemma
derivableX
- lemma
-
in
lebesgue_integral.v:- lemma
integral_setD1_EFin - lemmas
integral_itv_bndo_bndc,integral_itv_obnd_cbnd - lemmas
Rintegral_itv_bndo_bndc,Rintegral_itv_obnd_cbnd
- lemma
-
in
separation_axioms.v:- definition
cvg_toi_locally_close
- definition
-
in
realfun.v:- lemma
lime_sup_ge0
- lemma
-
in
constructive_ereal.v:- notation
lte_spaddr(deprecated since 0.6) - notation
gte_opp(deprecated since 0.6.0) - lemmas
daddooe,daddeoo - notations
desum_ninftyP,desum_ninfty,desum_pinftyP,desum_pinfty(deprecated since 0.6.0) - notation
eq_pinftyP(deprecated since 0.6.0)
- notation
-
in
topology.v:- notation
[filteredType _ of _] - definition
fmap_proper_filter' - definition
filter_map_proper_filter' - definition
filter_prod_proper'
- notation
-
in
normedtype.v:- notation
normmZ(deprecated since 0.6.0) - notation
nbhs_image_ERFin(deprecated since 0.6.0) - notations
ereal_limrM,ereal_limMr,ereal_limN(deprecated since 0.6.0) - notation
norm_cvgi_map_lim(deprecated since 0.6.0) - notations
ereal_cvgN,ereal_is_cvgN,ereal_cvgrM,ereal_is_cvgrM,ereal_cvgMr,ereal_is_cvgMr,ereal_cvgM(deprecated since 0.6.0) - notation
cvg_dist, lemma__deprecated__cvg_dist(deprecated since 0.6.0) - notation
cvg_dist2, lemma__deprecated__cvg_dist2(deprecated since 0.6.0) - notation
cvg_dist0, lemma__deprecated__cvg_dist0(deprecated since 0.6.0) - notation
ler0_addgt0P, lemma__deprecated__ler0_addgt0P(deprecated since 0.6.0) - notation
cvg_bounded_real, lemma__deprecated__cvg_bounded_real(deprecated since 0.6.0) - notation
linear_continuous0, lemma__deprecated__linear_continuous0(deprecated since 0.6.0)
- notation
-
in
sequences.v:- notation
nneseries_mkcond(was deprecated since 0.6.0) - notation
squeeze, lemma__deprecated__squeeze(deprecated since 0.6.0) - notation
cvgPpinfty, lemma__deprecated__cvgPpinfty(deprecated since 0.6.0) - notation
cvgNpinfty, lemma__deprecated__cvgNpinfty(deprecated since 0.6.0) - notation
cvgNninfty, lemma__deprecated__cvgNninfty(deprecated since 0.6.0) - notation
cvgPninfty, lemma__deprecated__cvgPninfty(deprecated since 0.6.0) - notation
ger_cvg_pinfty, lemma__deprecated__ger_cvg_pinfty(deprecated since 0.6.0) - notation
ler_cvg_ninfty, lemma__deprecated__ler_cvg_ninfty(deprecated since 0.6.0) - notation
lim_ge, lemma__deprecated__lim_ge(deprecated since 0.6.0) - notation
lim_le, lemma__deprecated__lim_le(deprecated since 0.6.0)
- notation
-
in
mathcomp_extra.v:- lemmas
invf_ple,invf_lep
- lemmas
-
in
classical_sets.v:- scope
relation_scopewith delimiterrelation - notation
^-1inrelation_scope(used to be a local notation) - lemma
set_prod_invK(was a local lemma innormedtype.v) - definition
diagonal, lemmadiagonalP
- scope
-
in
functions.v:- lemmas
mul_funC
- lemmas
-
in
set_interval.v:- lemma
subset_itvSoo - new definitions
itv_is_ray,itv_is_bd_open, anditv_open_ends - new lemmas
itv_open_ends_rside,itv_open_ends_rinfty,itv_open_ends_lside,itv_open_ends_linfty,is_open_itv_itv_is_bd_openP,itv_open_endsI,itv_setU,itv_setI
- lemma
-
in
topology.v:- lemma
filterN - Structures
PointedFiltered,PointedNbhs,PointedUniform,PseudoPointedMetric - new definition
order_topology - new lemmas
discrete_nat,rray_open,lray_open,itv_open,itv_open_ends_open,rray_closed,lray_closed,itv_closed,itv_closure,itv_closed_infimums,itv_closed_supremums,order_hausdorff,clopen_bigcup_clopen,zero_dimensional_ray,order_nbhs_itv,open_order_weak,real_order_nbhsE
- lemma
-
in
normedtype.v:- lemmas
not_near_inftyP,not_near_ninftyP - lemma
ninftyN - lemma
le_closed_ball - lemmas
nbhs_right_ltW,cvg_patch
- lemmas
-
in
derive.v:- lemma
derive_id - lemmas
exp_derive,exp_derive1 - lemma
derive_cst - lemma
deriveMr,deriveMl
- lemma
-
in
sequences.v:- lemma
cvg_geometric_eseries_half - theorem
Baire - definition
bounded_fun_norm - lemma
bounded_landau - definition
pointwise_bounded - definition
uniform_bounded - theorem
Banach_Steinhauss
- lemma
-
in
numfun.v:- lemma
indicI
- lemma
-
in
measure.v:- lemma
measurable_neg,measurable_or
- lemma
-
in
lebesgue_measure.v:- definitions
is_open_itv,open_itv_cover - lemmas
outer_measure_open_itv_cover,outer_measure_open_le,outer_measure_open,outer_measure_Gdelta,negligible_outer_measure - lemmas
measurable_fun_eqr,measurable_fun_indic,measurable_fun_dirac,measurable_fun_addn,measurable_fun_maxn,measurable_fun_subn,measurable_fun_ltn,measurable_fun_leq,measurable_fun_eqn - module
NGenCInfty- definition
G - lemmas
measurable_itv_bounded,measurableE
- definition
- definitions
-
in
lebesgue_integral.v:- lemma
integralZr - lemma
locally_integrableS - lemma
integrable_locally_restrict - lemma
near_davg - lemma
lebesgue_pt_restrict
- lemma
-
in
ftc.v:- lemmas
integration_by_parts,Rintegration_by_parts - corollary
continuous_FTC1_closed
- lemmas
-
in
topology.v:- removed the pointed assumptions from
FilteredType,Nbhs,TopologicalType,UniformType, andPseudoMetricType. - if you want the original pointed behavior, use the
pvariants of the types, soptopologicalTypeinstead oftopologicalType. - generalized most lemmas to no longer depend on pointedness.
The main exception is for references to
cvgandlimthat depend ongetfor their definition. pointed_principal_filterbecomesprinciple_filter_typeand requires onlychoiceTypeinstead ofpointedTypepointed_discrete_topologybecomesdiscrete_topology_typeand requires onlychoiceTypeinstead ofpointedType- renamed lemma
discrete_pointedtodiscrete_space_discrete
- removed the pointed assumptions from
-
in
function_space.v:- generalized most lemmas to no longer depend on pointedness.
-
in
normedtype.v:- remove superflous parameters in lemmas
not_near_at_rightPandnot_near_at_leftP - lemma
continuous_within_itvP: change the statement to use the notation[/\ _, _ & _]
- remove superflous parameters in lemmas
-
moved from
numfun.vtocardinality.v:- lemma
fset_set_comp
- lemma
-
moved
summability.vfromtheoriestotheories/showcase -
in
lebesgue_measure.v:- remove redundant hypothesis from lemma
pointwise_almost_uniform
- remove redundant hypothesis from lemma
-
moved from
lebesgue_measure.vtoset_interval.v:is_open_itv, andopen_itv_cover -
in
lebesgue_integral.v:- lemma
nice_lebesgue_differentiation: change the local integrability hypothesis to easy application
- lemma
-
in
ftc.v:- lemma
FTC1_lebesgue_pt, corollariesFTC1,FTC1Ny: integrability hypothesis weakened
- lemma
-
in
set_interval.v:subset_itvS->subset_itvScc
-
in
topology.v:- in mixin
Nbhs_isUniform_mixin:entourage_refl_subproof->entourage_diagonal_subproof
- in factory
Nbhs_isUniform:entourage_refl->entourage_diagonal
- in factory
isUniform:entourage_refl->entourage_diagonal
- in mixin
-
in
lebesgue_measure.v:measurable_exprn->exprn_measurablemeasurable_mulrl->mulrl_measurablemeasurable_mulrr->mulrr_measurablemeasurable_fun_pow->measurable_funXmeasurable_oppe->oppe_measurablemeasurable_abse->abse_measurablemeasurable_EFin->EFin_measurablemeasurable_oppr->oppr_measurablemeasurable_normr->normr_measurablemeasurable_fine->fine_measurablemeasurable_natmul->natmul_measurable
-
in
lebesgue_integral.v- lemma
integrable_locally->open_integrable_locally
- lemma
-
in
derive.v:- lemma
derivable_cst
- lemma
-
in
lebesgue_measure.v:- lemma
measurable_funX(wasmeasurable_fun_pow)
- lemma
-
in
lebesgue_integral.v- lemma
ge0_integral_closed_ball
- lemma
-
in
ftc.v:- lemma
continuous_FTC2(continuity hypothesis weakened)
- lemma
- in
lebesgue_measure.v:- notation
measurable_fun_sqr(was deprecated since 0.6.3) - notation
measurable_fun_exprn(was deprecated since 0.6.3) - notation
measurable_funrM(was deprecated since 0.6.3) - notation
emeasurable_fun_minus(was deprecated since 0.6.3) - notation
measurable_fun_abse(was deprecated since 0.6.3) - notation
measurable_fun_EFin(was deprecated since 0.6.3) - notation
measurable_funN(was deprecated since 0.6.3) - notation
measurable_fun_opp(was deprecated since 0.6.3) - notation
measurable_fun_normr(was deprecated since 0.6.3) - notation
measurable_fun_fine(was deprecated since 0.6.3)
- notation
- in
topology.v:- turned into Let's (inside
HB.builders):- lemmas
nbhsE_subproof,openE_subproof - lemmas
nbhs_pfilter_subproof,nbhsE_subproof,openE_subproof - lemmas
open_fromT,open_fromI,open_from_bigU - lemmas
finI_from_cover,finI_from_join - lemmas
nbhs_filter,nbhs_singleton,nbhs_nbhs - lemmas
ball_le,entourage_filter_subproof,ball_sym_subproof,ball_triangle_subproof,entourageE_subproof
- lemmas
- turned into Let's (inside
- in
wochoice.v:- two applications of the lemma
in3Whave been removed because they seem to cause a universe inconsistency when one loads theringmodule ofalgebra-tactics
- two applications of the lemma
- in
reals.v:- lemma
rat_in_itvoo(fromrealTypetoarchiFieldType)
- lemma
-
in
mathcomp_extra.v:- lemma
ge_floor - lemmas
intr1D,intrD1,floor_eq,floorN - lemma
invf_ltp
- lemma
-
new file
wochoice.v:- definition
prop_within - lemmas
withinW,withinT,sub_within - notation
{in <= _, _} - definitions
maximal,minimal,upper_bound,lower_bound,preorder,partial_order,total_order,nonempty,minimum_of,maximum_of,well_order,chain,wo_chain - lemmas
antisymmetric_wo_chain,antisymmetric_well_order,wo_chainW,wo_chain_reflexive,wo_chain_antisymmetric,Zorn's_lemma,Hausdorff_maximal_principle,well_ordering_principle
- definition
-
in
classical_sets.v:- lemma
setCD - definition
setY, notation`+` - lemmas
setY0,set0Y,setYK,setYC,setYA,setIYl,mulrYr,setY_def,setYE,setYU,setYI,setYD,setYCT,setCYT,setYTC,setTYC - lemma
setDU - lemmas
setC_I,bigcup_subset - lemmas
xsectionP,ysectionP
- lemma
-
in
constructive_ereal.v:- lemmas
lteD2rE,leeD2rE - lemmas
lte_dD2rE,lee_dD2rE
- lemmas
-
in
reals.v:- lemma
mem_rg1_floor
- lemma
-
in
set_interval.v:- lemmas
subset_itvl,subset_itvr,subset_itvS - lemma
interval_set1
- lemmas
-
in
topology.v:- lemma
ball_subspace_ball
- lemma
-
in
ereal.v:- lemmas
restrict_EFin
- lemmas
-
in
normedtype.v:- lemmas
nbhs_lt,nbhs_le - lemma
nbhs_right_ltDr
- lemmas
-
in
numfun.v:- lemma
epatch_indic - lemma
restrict_normr - lemmas
funepos_le,funeneg_le
- lemma
-
in
realfun.v:- lemma
nondecreasing_at_left_is_cvgr - lemmas
nondecreasing_at_left_at_right,nonincreasing_at_left_at_right
- lemma
-
in
measure.v:- factory
isAlgebraOfSets_setD - defintion
setY_closed - factory
isRingOfSets_setY - definition
completed_measure_extension - lemma
completed_measure_extension_sigma_finite - definition
lim_sup_set - lemmas
lim_sup_set_ub,lim_sup_set_cvg,lim_sup_set_cvg0
- factory
-
in
lebesgue_stieltjes_measure.v:- definition
completed_lebesgue_stieltjes_measure
- definition
-
in
lebesgue_measure.v:- definition
completed_lebesgue_measure - lemma
completed_lebesgue_measure_is_complete - definition
completed_algebra_gen - lemmas
g_sigma_completed_algebra_genE,negligible_sub_caratheodory,completed_caratheodory_measurable
- definition
-
in
lebesgue_integral.v:- lemmas
eq_Rintegral,Rintegral_mkcond,Rintegral_mkcondr,Rintegral_mkcondl,le_normr_integral,Rintegral_setU_EFin,Rintegral_set0,Rintegral_itv_bndo_bndc,Rintegral_itv_obnd_cbnd,Rintegral_set1,Rintegral_itvB - lemma
integral_Sset1 - lemma
integralEpatch - lemma
integrable_restrict - lemma
le_integral - lemma
null_set_integral - lemma
EFin_normr_Rintegral
- lemmas
-
in
charge.v:- definition
charge_variation - lemmas
abse_charge_variation,charge_variation_continuous - definition
induced - lemmas
semi_sigma_additive_nng_induced,dominates_induced,integral_normr_continuous
- definition
-
in
ftc.v:- lemma
FTC1(specialization of the previousFTC1lemma, now renamed toFTC1_lebesgue_pt) - lemma
FTC1Ny - definition
parameterized_integral - lemmas
parameterized_integral_near_left,parameterized_integral_left,parameterized_integral_cvg_at_left,parameterized_integral_continuous - corollary
continuous_FTC2
- lemma
-
in
mathcomp_extra.v:- Notation "f ^-1" now at level 35 with f at next level
-
in
classical_sets.v:- lemmas
ZornandZL_preordernow require a relation of typerel Tinstead ofT -> T -> Prop
- lemmas
-
moved from
reals.vtomathcomp_extra.v- lemma
lt_succ_floor: conclusion changed to matchlt_succ_floorin MathComp, generalized toarchiDomainType - generalized to
archiDomainType: lemmasfloor_ge0,floor_lt0,floor_natz,floor_ge_int,floor_neq0,floor_lt_int,ceil_ge,ceil_ge0,ceil_gt0,ceil_le0,ceil_ge_int,ceilN,abs_ceil_ge - generalized to
archiDomainTypeand precondition generalized:floor_le0
- generalized to
archiDomainTypeand renamed:ceil_lt_int->ceil_gt_int
- lemma
-
in
reals.v:- definitions
Rceil,Rfloor
- definitions
-
in
topology.v:- lemmas
subspace_pm_ball_center,subspace_pm_ball_sym,subspace_pm_ball_triangle,subspace_pm_entourageturned into localLet's
- lemmas
-
in
lebesgue_integral.v:- lemma
measurable_int: argumentmunow explicit
- lemma
-
moved from
lebesgue_integral.vtoereal.v:- lemma
funID
- lemma
-
moved from
lebesgue_integral.vtonumfun.v:- lemmas
fimfunEord,fset_set_comp
- lemmas
-
moved from
lebesgue_integral.vtocardinality.v:- hint
solve [apply: fimfunP]
- hint
-
in
constructive_ereal.v:lte_pdivr_mull->lte_pdivrMllte_pdivr_mulr->lte_pdivrMrlte_pdivl_mull->lte_pdivlMllte_pdivl_mulr->lte_pdivlMrlte_ndivl_mulr->lte_ndivlMrlte_ndivl_mull->lte_ndivlMllte_ndivr_mull->lte_ndivrMllte_ndivr_mulr->lte_ndivrMrlee_pdivr_mull->lee_pdivrMllee_pdivr_mulr->lee_pdivrMrlee_pdivl_mull->lee_pdivlMllee_pdivl_mulr->lee_pdivlMrlee_ndivl_mulr->lee_ndivlMrlee_ndivl_mull->lee_ndivlMllee_ndivr_mull->lee_ndivrMllee_ndivr_mulr->lee_ndivrMreqe_pdivr_mull->eqe_pdivrMllte_dadd->lte_dDlee_daddl->lee_dDllee_daddr->lee_dDrgee_daddl->gee_dDlgee_daddr->gee_dDrlte_daddl->lte_dDllte_daddr->lte_dDrgte_dsubl->gte_dBlgte_dsubr->gte_dBrgte_daddl->gte_dDlgte_daddr->gte_dDrlee_dadd2lE->lee_dD2lElte_dadd2lE->lte_dD2lElee_dadd2rE->lee_dD2rElee_dadd2l->lee_dD2llee_dadd2r->lee_dD2rlee_dadd->lee_dDlee_dsub->lee_dBlte_dsubl_addr->lte_dBlDrlte_dsubl_addl->lte_dBlDllte_dsubr_addr->lte_dBrDrlte_dsubr_addl->lte_dBrDlgte_opp->gteNgte_dopp->gte_dNlte_le_add->lte_leDlee_lt_add->lee_ltDlte_le_dadd->lte_le_dDlee_lt_dadd->lee_lt_dDlte_le_sub->lte_leBlte_le_dsub->lte_le_dB
-
in
classical_sets.v:setM->setXin_setM->in_setXsetMR->setXRsetML->setXLsetM0->setX0set0M->set0XsetMTT->setXTTsetMT->setXTsetTM->setTXsetMI->setXIsetM_bigcupr->setX_bigcuprsetM_bigcupl->setX_bigcuplbigcup_setM_dep->bigcup_setX_depbigcup_setM->bigcup_setXfst_setM->fst_setXsnd_setM->snd_setXin_xsectionM->in_xsectionXin_ysectionM->in_ysectionXnotin_xsectionM->notin_xsectionXnotin_ysectionM->notin_ysectionXsetSM->setSXbigcupM1l->bigcupX1lbigcupM1r->bigcupX1r
-
in
cardinality.v:countableMR->countableXRcountableM->countableXcountableML->countableXLinfiniteMRl->infiniteXRlcardMR_eq_nat->cardXR_eq_natfinite_setM->finite_setXfinite_setMR->finite_setXRfinite_setML->finite_setXLfset_setM->fset_setX
-
in
reals.v:inf_lb->inf_lboundsup_ub->sup_uboundereal_inf_lb->ereal_inf_lboundereal_sup_ub->ereal_sup_ubound
-
in
topology.v:compact_setM->compact_setX
-
in
measure.v:measurable_restrict->measurable_restrictTsetD_closed->setSD_closedmeasurableM->measurableX
-
in
ftc.v:FTC1->FTC1_lebesgue_pt
-
in
constructive_ereal.v:- lemmas
leeN2,lteN2generalized fromrealDomainTypetonumDomainType
- lemmas
-
in
measure.v:- lemma
measurable_restrict
- lemma
-
in
constructive_ereal.v:- lemmas
lte_opp2,lee_opp2(uselteN2,leeN2instead)
- lemmas
-
in
reals.v:floor_le(usege_floorinstead)le_floor(useNum.Theory.floor_leinstead)le_ceil(useceil_geinstead)
-
in
lebesgue_integral.v:- lemmas
integralEindic,integral_setI_indic
- lemmas
-
in
classical_sets.v:- inductive
tower - lemma
ZL'
- inductive
-
in
reals.v:- definition
floor(useNum.floorinstead) - definition
ceil(useNum.ceilinstead) - lemmas
floor0,floor1 - lemma
le_floor(useNum.Theory.floor_leinstead)
- definition
-
in
topology.v,function_spaces.v,normedtype.v:- local notation
to_set
- local notation
-
in file
mathcomp_extra.v:- module
Order- definitions
disp_t,default_display
- definitions
- lemma
Pos_to_natE
- module
-
in
classical_sets.v:- lemma
bigcup_recl - notations
\bigcup_(i >= n) F iand\bigcap_(i >= n) F i - lemmas
bigcup_addn,bigcap_addn - lemmas
setD_bigcup,nat_nonempty - hint
nat_nonempty - lemma
bigcup_bigsetU_bigcup - lemmas
setDUD,setIDAC
- lemma
-
in
Rstruct.v:- lemma
IZRposE
- lemma
-
in
signed.v:- lemma
onem_nonneg_proof, definitiononem_nonneg
- lemma
-
in
esum.v:- lemma
nneseries_sum_bigcup
- lemma
-
in
normedtype.v:- lemma
not_near_at_leftP
- lemma
-
in
sequences.v:- lemma
nneseries_recl - lemma
nneseries_addn
- lemma
-
in
realfun.v- lemmas
total_variation_nondecreasing,total_variation_bounded_variation
- lemmas
-
in
measure.v:- definition
subset_sigma_subadditive - factory
isSubsetOuterMeasure - structure
SigmaRing, notationsigmaRingType - factory
isSigmaRing - lemma
bigcap_measurableforsigmaRingType - lemma
setDI_semi_setD_closed - lemmas
powerset_lambda_system,lambda_system_smallest,sigmaRingType_lambda_system - definitions
niseq_closed,sigma_ring(notation<<sr _ >>),monotone(notation<<M _ >>) - lemmas
smallest_sigma_ring,sigma_ring_monotone,g_sigma_ring_monotone,sub_g_sigma_ring,setring_monotone_sigma_ring,g_monotone_monotone,g_monotone_setring,g_monotone_g_sigma_ring,monotone_setring_sub_g_sigma_ring - lemmas
powerset_sigma_ring,g_sigma_ring_strace,setI_g_sigma_ring,subset_strace - lemma
measurable_and - lemma
measurableID - lemma
strace_sigma_ring
- definition
-
in
lebesgue_measure.v:- lemma
measurable_fun_ler - lemmas
measurable_natmul,measurable_fun_pow
- lemma
-
in
lebesgue_integral.v:- lemmas
integrableMl,integrableMr
- lemmas
-
in
probability.v:- definition
bernoulli_pmf - lemmas
bernoulli_pmf_ge0,bernoulli_pmf1,measurable_bernoulli_pmf - definition
bernoulli(equipped with theprobabilitystructure) - lemmas
bernoulli_dirac,bernoulliE,integral_bernoulli,measurable_bernoulli,measurable_bernoulli2 - definition
binomial_pmf - lemmas
binomial_pmf_ge0,measurable_binomial_pmf - definitions
binomial_prob(equipped with theprobabilitystructure),bin_prob - lemmas
bin_prob0,bin_prob1,binomial_msum,binomial_probE,integral_binomial,integral_binomial_prob,measurable_binomial_prob - definition
uniform_pdf - lemmas
measurable_uniform_pdf,integral_uniform_pdf,integral_uniform_pdf1 - definition
uniform_prob(equipped with theprobabilitystructure) - lemmas
dominates_uniform_prob,integral_uniform
- definition
-
new file
theories/all_analysis.v
-
in
forms.v:- notation
u ``_ _
- notation
-
in
sequences.v:- definition
expRis now HB.locked - equality reversed in lemma
eq_bigcup_seqD eq_bigsetU_seqDrenamed tonondecreasing_bigsetU_seqDand equality reversed
- definition
-
in
trigo.v:- definitions
sin,cos,acos,asin,atanare now HB.locked
- definitions
-
in
measure.v:- change the hypothesis of
measurable_fun_bool - mixin
AlgebraOfSets_isMeasurablerenamed tohasMeasurableCountableUnionand made to inherit fromSemiRingOfSets - rm hypo and variable in lemma
smallest_monotone_classEand rename tosmallest_lambda_system - rm hypo in lemma
monotone_class_g_salgebraand renamed tog_salgebra_lambda_system - rm hypo in lemma
monotone_class_subsetand renamed tolambda_system_subset - notation
<<m _, _>>changed to<<l _, _>>, notation<<m _>>changed to<<l _>>
- change the hypothesis of
-
moved from
lebesgue_measure.vtomeasure.v:- definition
strace - lemma
sigma_algebra_strace
- definition
-
in
classical_sets.v:notin_set->notin_setE
-
in
constructive_ereal.v:gee_pmull->gee_pMlgee_addl->geeDlgee_addr->geeDrgte_addl->gteDlgte_addr->gteDrlte_subl_addr->lteBlDrlte_subl_addl->lteBlDllte_subr_addr->lteBrDrlte_subr_addl->lteBrDllee_subl_addr->leeBlDrlee_subl_addl->leeBlDllee_subr_addr->leeBrDrlee_subr_addl->leeBrDlnum_lee_maxr->num_lee_maxnum_lee_maxl->num_gee_maxnum_lee_minr->num_lee_minnum_lee_minl->num_gee_minnum_lte_maxr->num_lte_maxnum_lte_maxl->num_gte_maxnum_lte_minr->num_lte_minnum_lte_minl->num_gte_min
-
in
signed.v:num_le_maxr->num_le_maxnum_le_maxl->num_ge_maxnum_le_minr->num_le_minnum_le_minl->num_ge_minnum_lt_maxr->num_lt_maxnum_lt_maxl->num_gt_maxnum_lt_minr->num_lt_minnum_lt_minl->num_gt_min
-
in
measure.v:sub_additive->subadditivesigma_sub_additive->measurable_subset_sigma_subadditivecontent_sub_additive->content_subadditivering_sigma_sub_additive->ring_sigma_subadditiveContent_SubSigmaAdditive_isMeasure->Content_SigmaSubAdditive_isMeasuremeasure_sigma_sub_additive->measure_sigma_subadditivemeasure_sigma_sub_additive_tail->measure_sigma_subadditive_tailbigcap_measurable->bigcap_measurableTypemonotone_class->lambda_systemmonotone_class_g_salgebra->g_sigma_algebra_lambda_systemsmallest_monotone_classE->smallest_lambda_systemdynkin_monotone->dynkin_lambda_systemdynkin_g_dynkin->g_dynkin_dynkinsalgebraType->g_sigma_algebraTypeg_salgebra_measure_unique_trace->g_sigma_algebra_measure_unique_traceg_salgebra_measure_unique_cover->g_sigma_algebra_measure_unique_coverg_salgebra_measure_unique->g_sigma_algebra_measure_uniquesetI_closed_gdynkin_salgebra->setI_closed_g_dynkin_g_sigma_algebra
-
in
lebesgue_integral.v:integral_measure_add->ge0_integral_measure_addintegral_pushforward->ge0_integral_pushforward
-
in
Rstruct.v:- lemmas
RinvE,RdivE
- lemmas
-
in
constructive_ereal.v:gee_pMl(wasgee_pmull)
-
in
sequences.v:- lemmas
eseries0,nneseries_split
- lemmas
-
in
measure.v:- lemmas
outer_measure_subadditive,outer_measureU2(fromsemiRingOfSetTypetoType) - lemmas
caratheodory_measurable_mu_ext,measurableM,measure_dominates_trans,ess_sup_ge0definitionspreimage_classes,measure_dominates,ess_sup(frommeasurableTypetosemiRingOfSetsType) - lemmas
measurable_prod_measurableType,measurable_prod_g_measurableTypeR(frommeasurableTypetoalgebraOfSetsType) - from
measurableTypetosigmaRingType- lemmas
bigcup_measurable,bigcapT_measurable - definition
measurable_fun - lemmas
measurable_id,measurable_comp,eq_measurable_fun,measurable_cst,measurable_fun_bigcup,measurable_funU,measurable_funS,measurable_fun_if - lemmas
semi_sigma_additiveE,sigma_additive_is_additive,measure_sigma_additive - definitions
pushforward,dirac - lemmas
diracE,dirac0,diracT,finite_card_sum,finite_card_dirac,infinite_card_dirac - definitions
msum,measure_add,mscale,mseries,mrestr - lemmas
msum_mzero,measure_addE - definition
sfinite_measure - mixin
isSFinite, structureSFiniteMeasure - structure
FiniteMeasure - factory
Measure_isSFinite - lemma
negligible_bigcup - definition
ae_eq - lemmas
ae_eq0,ae_eq_comp,ae_eq_funeposneg,ae_eq_refl,ae_eq_sym,ae_eq_trans,ae_eq_sub,ae_eq_mul2r,ae_eq_mul2l,ae_eq_mul1l,ae_eq_abse,ae_eq_subset
- lemmas
- from
measurableTypetosigmaRingTypeand fromrealTypetorealFieldType- definition
mzero
- definition
- from
realTypetorealFieldType:- lemma
sigma_finite_mzero
- lemma
- lemmas
-
in
lebesgue_measure.v:- from
measurableTypetosigmaRingType- section
measurable_fun_measurable
- section
- from
-
in
lebesgue_integral.v:- lemma
ge0_integral_bigcup - lemma
ge0_emeasurable_fun_sum - from
measurableTypetosigmaRingType- mixin
isMeasurableFun - structure
SimpleFun - structure
NonNegSimpleFun - sections
fimfun_bin,mfun_pred,sfun_pred,simple_bounded - lemmas
nnfun_muleindic_ge0,mulemu_ge0,nnsfun_mulemu_ge0 - section
sintegral_lemmas - lemma
eq_sintegral - section
sintegralrM
- mixin
- lemma
-
in
probability.v:- lemma
markov
- lemma
- in
classical_sets.v:notin_set(usenotin_setEinstead)
-
in
forms.v- canonical
rev_mulmx - structure
revop
- canonical
-
in
reals.v- lemma
inf_lower_bound(useinf_lbinstead)
- lemma
-
in
derive.v:- definition
mulr_rev - canonical
rev_mulr - lemmas
mulr_is_linear,mulr_rev_is_linear
- definition
-
in
measure.v:- lemmas
prod_salgebra_set0,prod_salgebra_setC,prod_salgebra_bigcup(usemeasurable0,measurableC,measurable_bigcupinstead)
- lemmas
-
in
lebesgue_measure.v:- lemmas
stracexx,strace_measurable
- lemmas
-
in
lebesgue_integral.v:integrablerM,integrableMr(were deprecated since version 0.6.4)
-
in
mathcomp_extra.v- lemma
invf_plt
- lemma
-
in
contra.v:- in module
Internals- variant
equivT - definitions
equivT_refl,equivT_transl,equivT_sym,equivT_trans,equivT_transr,equivT_Prop,equivT_LR(hint view),equivT_RL(hint view)
- variant
- definition
notP - hint view for
move/andapply/forInternals.equivT_LR,Internals.equivT_RL
- in module
-
in
set_interval.v- lemmas
setDitv1r,setDitv1l - lemmas
set_itvxx,itv_bndbnd_setU
- lemmas
-
in
reals.v- lemma
abs_ceil_ge
- lemma
-
in
topology.v:- lemmas
nbhs_infty_ger,nbhs0_ltW,nbhs0_lt
- lemmas
-
file
function_spaces.v -
in
normedtype.v- lemma
closed_ball_ball - lemma
ball_open_nbhs - new definition
completely_regular_space. - new lemmas
point_uniform_separator, anduniform_completely_regular.
- lemma
-
in
exp.v- lemma
ln_lt0 - lemma
expRM_natr
- lemma
-
in
numfun.v- lemma
cvg_indic
- lemma
-
in
lebesgue_integral.v- lemma
ge0_integralZr - lemma
locally_integrable_indic - definition
davg, lemmasdavg0,davg_ge0,davgD,continuous_cvg_davg - definition
lim_sup_davg, lemmaslim_sup_davg_ge0,lim_sup_davg_le,continuous_lim_sup_davg,lim_sup_davgB,lim_sup_davgT_HL_maximal - definition
lebesgue_pt, lemmacontinuous_lebesgue_pt - lemma
integral_setU_EFin - lemmas
integral_set1,ge0_integral_closed_ball,integral_setD1_EFin,integral_itv_bndo_bndc,integral_itv_obnd_cbnd - lemma
lebesgue_differentiation - lemma
lebesgue_density - definition
nicely_shrinking, lemmasnicely_shrinking_gt0,nicely_shrinking_lty,nice_lebesgue_differentiation
- lemma
-
new file
ftc.v:- lemmas
FTC1,continuous_FTC1
- lemmas
-
moved from
topology.vtofunction_spaces.v:prod_topology,product_topology_def,proj_continuous,dfwith_continuous,proj_open,hausdorff_product,tychonoff,perfect_prod,perfect_diagonal,zero_dimension_prod,totally_disconnected_prod,separate_points_from_closed,weak_sep_cvg,weak_sep_nbhsE,weak_sep_openE,join_product,join_product_continuous,join_product_open,join_product_inj,join_product_weak,fct_ent,fct_ent_filter,fct_ent_refl,fct_ent_inv,fct_ent_split,cvg_fct_entourageP,fun_complete,fct_ball,fct_ball_center,fct_ball_sym,fct_ball_triangle,fct_entourage,cvg_switch_1,cvg_switch_2,cvg_switch,uniform_fun,uniform_nbhs,uniform_entourage,restricted_cvgE,pointwise_cvgE,uniform_fun_family,uniform_set1,uniform_subset_nbhs,uniform_subset_cvg,pointwise_uniform_cvg,cvg_sigL,eq_in_close,hausdorrf_close_eq_in,uniform_restrict_cvg,uniform_nbhsT,cvg_uniformU,cvg_uniform_set0,fam_cvgP,family_cvg_subset,family_cvg_finite_covers,fam_cvgE,fam_nbhs,fam_compact_nbhs,compact_open,compact_openK,compact_openK_nbhs,compact_open_of_nbhs,compact_open_def,compact_open_cvgP,compact_open_open,compact_open_fam_compactP,compactly_in,compact_cvg_within_compact,uniform_limit_continuous,uniform_limit_continuous_subspace,singletons,pointwise_cvg_family_singleton,pointwise_cvg_compact_family,pointwise_cvgP,equicontinuous,equicontinuous_subset,equicontinuous_subset_id,equicontinuous_continuous_for,equicontinuous_continuous,pointwise_precompact,pointwise_precompact_subset,pointwise_precompact_precompact,uniform_pointwise_compact,precompact_pointwise_precompact,pointwise_cvg_entourage,equicontinuous_closure,small_ent_sub,pointwise_compact_cvg,pointwise_compact_closure,pointwise_precompact_equicontinuous,compact_equicontinuous,precompact_equicontinuous,Ascoli,continuous_curry,continuous_uncurry_regular,continuous_uncurry,curry_continuous, anduncurry_continuous. -
moved from
cantor.vtotopology.v:- lemma
discrete_bool_compact - definition
pointed_principal_filter - definition
pointed_discrete_topology - lemma
discrete_pointed
- lemma
-
in
measure.v:- lemma
sigma_finitePgeneralized to an equivalence and changed to use[/\ ..., .. & ....]
- lemma
-
move from
kernel.vtomeasure.v- definition
mset,pset,pprobability - lemmas
lt0_mset,gt1_mset
- definition
-
in
constructive_ereal.v:lee_addl->leeDllee_addr->leeDrlee_add2l->leeD2llee_add2r->leeD2rlee_add->leeDlee_sub->leeBlee_add2lE->leeD2lElte_add2lE->lteD2lElee_oppl->leeNllee_oppr->leeNrlte_oppr->lteNrlte_oppl->lteNllte_add->lteDlte_addl->lteDllte_addr->lteDr
-
in
exp.v:expRMm->expRM_natl
-
in
measure.v:Measure_isSFinite_subdef->isSFinitesfinite_measure_subdef->s_finiteSigmaFinite_isFinite->isFiniteFiniteMeasure_isSubProbability->isSubProbability
-
in
lebesgue_integral.vintegral_setU->ge0_integral_setUsubset_integral->ge0_subset_integral
- in
realfun.v- lemma
lime_sup_le
- lemma
-
in
topology.v:- definition
pointwise_fun - module
PtwsFun
- definition
-
in
mathcomp_extra.v:- notations
eqLHSandeqRHS(they areeqbLHSandeqbRHSin mathcomp since 1.15.0)
- notations
-
in
constructive_ereal.v:- definition
dEFin - notations
%:dE,%:E(ereal_dual_scope) - notation
\bar^d ...(type_scope) for dual extended real numbers - instance using
isNmodule.Buildfor\bar - instances using
Choice.onandisNmodule.Buildfor\bar^d - lemma
EFin_semi_additive - lemmas
dEFinE,dEFin_semi_additive - instance using
isSemiAdditive.Buildfor\bar^d - canonical
dEFin_snum
- definition
-
in
reals.v:- definition
Rint_pred
- definition
-
in
topology.v- definition
set_system, identity coercionset_system_to_setwith instances usingEquality.on,Choice.on,Pointed.on,isFiltered.Build - mixin
selfFiltered, factoryhasNbhs, structureNbhs, typenbhsType - instance for matrices using
selfFiltered.Build - lemmas
cvg_in_ex,cvg_inP,cvg_in_toP,dvg_inP,cvg_inNpoint,eq_is_cvg_in - notations
E @[ x \oo ],limn,cvgn - definition
continuous_at - definitions
weak_topology,sup_topology,prod_topology - definition
prod_topo_apply - definition
discrete_topology - instead of
zmodTypeusingisPointed.Build - definition
pointwise_cvgE, instance usingUniform.copyfor{ptws _ -> _} - definition
compact_open_of_nbhs, lemmascompact_openK_nbhsE_subproof,compact_openK_openE_subproof
- definition
-
in
cantor.v:- definition
pointed_principal_filter, instances usingPointed.onandhasNbhs.Build - definition
pointed_discrete_topology - lemma
discrete_pointed - lemma
discrete_bool_compact
- definition
-
in
normedtype.v:- definition
urysohnTypewith instances usingPointed.onandisUniform.Build
- definition
-
in
derive.v:- lemma
cvg_at_rightE,cvg_at_leftE
- lemma
-
in
convex.v:- definition
convex_lmodTypewith instances usingChoice.onandisConvexSpace.Build - definition
convex_realDomainTypewith instance usingisConvexSpace.Build
- definition
-
in
lebesgue_stieltjes_measure.v:- instance on
ocitv_typeusingPointed.on
- instance on
-
in
lebesgue_integral.v:- mixin
isNonNegFun, notations{nnfun _ >-> _},[nnfun of _] - section
ring- lemmas
fimfun_mulr_closed, instances usingGRing.isMulClosed.Build,[SubZmodule_isSubRing of ... by <:] - lemmas
fimfunM,fimfun1,fimfun_prod,fimfunX, - lemma
indic_fimfun_subproof, instance usingindic_fimfun_subproof - definition
indic_fimfun - instance using
FImFun.copy, definitionscale_fimfun
- lemmas
- section
comring- instance using
[SubRing_isSubComRing of ... by <:] - instance using
FImFun.copy
- instance using
- lemmas
fimfunE,fimfunEord,trivIset_preimage1,trivIset_preimage1_in - section
fimfun_bin- lemma
max_fimfun_subproof, instance usingmax_fimfun_subproof
- lemma
- factory
FiniteDecomp
- mixin
-
in
charge.v:cscaleinstances usingSigmaFinite_isFinite.BuildandisAdditiveCharge.Build
-
in
boolp.v:- in lemma
gen_choiceMixin:Choice.mixin_of->hasChoice - in definition
gen_eqMixin:EqMixin->hasDecEq.Build - canonical
dep_arrow_eqType-> instance usinggen_eqMixin - canonical
dep_arrow_choiceType-> instance usinggen_choiceMixin - canonical
Prop_eqType-> instance usinggen_eqMixin - canonical
Prop_choiceType-> instance usinggen_choiceMixin - canonical
classicType_eqType-> instance usinggen_eqMixin - canonical
classicType_choiceType-> instance usinggen_choiceMixin - canonical
eclassicType_eqType-> instance usingEquality.copy - canonical
eclassicType_choiceType-> instance usinggen_choiceMixin - definition
porderMixinand canonicalporderType-> instance usingisPOrder.Build - definition
latticeMixinand canonicallatticeType-> instance usingPOrder_isLattice.Build
- in lemma
-
in
classical_sets.v:- canonicals
setU_monoid,setU_comoid,setU_mul_monoid,setI_monoid,setI_comoid,setI_mul_monoid,setU_add_monoid,setI_add_monoid-> instances usingisComLaw.Build,isMulLaw.Build,isComLaw.Build,isMulLaw.Build,isAddLaw.Build,isAddLaw.Build - module
Pointed(packed class) -> mixinisPointed, structurePointed - canonical
arrow_pointedTypeand definitiondep_arrow_pointedType-> instance usingisPointed.Build - canonicals
unit_pointedType,bool_pointedType,Prop_pointedType,nat_pointedType,prod_pointedType,matrix_pointedType,option_pointedType,pointed_fset-> instances usingisPointed.Build - module
Empty(packed class) -> mixinisEmpty, structureEmpty, factoriesChoice_isEmpty,Type_isEmpty - definition
False_emptyMixinand canonicalsFalse_eqType,False_choiceType,False_countType,False_finType,False_emptyType-> instance usingType_isEmpty.Build - definition
void_emptyMixinand canonicalvoid_emptyType-> instance usingisEmpty.Build - definition
orderMixinand canonicalsporderType,latticeType,distrLatticeType-> instances usingChoice.copyandisMeetJoinDistrLattice.Build - canonicals
bLatticeType,tbLatticeType,bDistrLatticeType,tbDistrLatticeType-> instances usinghasBottom.BuildandhasTop.Build - canonical
cbDistrLatticeType-> instance usinghasRelativeComplement.Build - canonical
ctbDistrLatticeType-> instance usinghasComplement.Build
- canonicals
-
in
functions.v:- notation
split - notation
\_moved fromfun_scopetofunction_scope - notations
pinv,pPbij,pPinj,injpPfun,funpPinj - in definition
fct_zmodMixin:ZmodMixin->isZmodule.Build - canonical
fct_zmodType-> instance usingfct_zmodMixin - in definition
fct_ringMixin:RingMixin->Zmodule_isRing.Build - canonical
fct_ringType-> instance usingfct_ringMixin - canonical
fct_comRingType-> definition and instance usingRing_hasCommutativeMul.Buildandfct_comRingType - definition
fct_lmodMixinand canonicalfct_lmodType-> definitionfct_lmodMixinand instance usingfct_lmodMixin
- notation
-
in
cardinality.v:- canonical
rat_pointedType-> instance usingisPointed.Build - canonical
fimfun_subType-> instance usingisSub.Build - definition
fimfuneqMixinand canonicalfimfuneqType-> instance using[Equality of ... by <:] - definition
fimfunchoiceMixinand canonicalfimfunchoiceType-> instance using[Choice of ... by <:] - canonicals
fimfun_add,fimfun_zmod,fimfun_zmodType, and definitionfimfun_zmodMixin-> instances usingisZmodClosed.Buildand[SubChoice_isSubZmodule of ... <:]
- canonical
-
in
signed.v:- definitions
signed_subType,signed_choiceMixin,signed_porderMixin, canonicalssigned_eqMixin,signed_eqType,signed_choiceType,signed_porderType-> instances using[isSub for ...]and[POrder of ... by <:] - in lemma
signed_le_total:totalPOrderMixin->total - canonicals
signed_latticeType,signed_distrLatticeType,signed_orderType-> instance usingOrder.POrder_isTotal.Build
- definitions
-
in
constructive_ereal.v:- definition
ereal_eqMixinand canonicalereal_eqType-> instance usinghasDecEq.Build - definition
ereal_choiceMixinand canonicalereal_choiceType-> instance usingChoice.copy - definition
ereal_countMixinandereal_countType-> instance usingPCanIsCountable - definition
ereal_porderMixinand canonicalChoice.copy-> instance usingisPOrder.Build - in lemma
le_total_ereal:le_total_ereal->total - canonicals
ereal_latticeType,ereal_distrLatticeType,ereal_orderType,ereal_blatticeType,ereal_tblatticeType, lemmasereal_blatticeMixin,ereal_blatticeMixin-> instances usingPOrder_isTotal.Build,hasBottom.Build,hasTop.Build - canonicals
adde_monoid,adde_comoid,mule_mulmonoid-> instance usingisMulLaw.Build - notations
maxe,mine:fun_scope->function_scope - canonicals
mule_monoid,mule_comoid-> instance usingisComLaw.Build - canonicals
maxe_monoid,maxe_comoid-> instance usingisLaw.Build
- definition
-
in
reals.v:- module
Real(packed class) -> mixinArchimedeanField_isRealwith fieldssup_upper_bound_subdef,sup_adherent_subdef, structureReal - canonicals
Rint_keyed,Rint_opprPred,Rint_addrPred,Rint_mulrPred,Rint_zmodPred,Rint_semiringPred,Rint_smulrPred,Rint_subringPred-> instance usingGRing.isSubringClosed.Build
- module
-
in
topology.v:- canonicals
linear_eqType,linear_choiceType-> instances usinggen_eqMixin,gen_choiceMixin - canonical
gen_choiceMixin-> instance usingisPointed.Build - module
Filtered(packed class) -> mixinisFilteredwith fieldnbhs, structureFiltered - now use
set_system:- definitions
filter_from,filter_prod,cvg_to,type_of_filter,lim_in,Build_ProperFilter,filter_ex,fmap,fmapi,globally,in_filter_prod,within,subset_filter,powerset_filter_from,principal_filter,locally_of,sup_subbase,cluster,compact,near_covering,near_covering_within,compact_near,nbhs_,weak_ent,sup_ent,cauchy,cvg_cauchy,cauchy_ex.Build,cauchy_ball - classes
Filter,ProperFilter',UltraFilter - instances
fmap_proper_filter,fmapi_filter,fmapi_proper_filter,filter_prod_filter,filter_prod1,filter_prod2 - record
in_filter - structure
filter_on - variant
nbhs_subspace_spec - lemmas
nearE,eq_near,nbhs_filterE,cvg_refl,cvg_trans,near2_curry,near_swap,filterP_strong,filter_nbhsT,nearT,filter_not_empty_ex,filter_ex_subproof,filter_getP,near,nearW,filterE,filter_app,filter_app2,filter_app3,filterS2,filterS3,nearP_dep,filter2P,filter_ex2,filter_fromP,filter_fromTP,filter_bigIP,filter_forall,filter_imply,fmapEP,fmapiE,cvg_id,appfilterP,cvg_app,cvgi_app,cvg_comp,cvgi_comp,near_eq_cvg,eq_cvg,neari_eq_loc,cvg_near_const,near_pair,near_map,near_map2,near_mapi,filter_pair_set,filter_pair_near_of,cvg_pair,cvg_comp2,near_powerset_map,near_powerset_map_monoE,cvg_fmap,continuous_cvg,continuous_is_cvg,continuous2_cvg,cvg_near_cst,is_cvg_near_cst,cvg_cst,is_cvg_cst,fmap_within_eq,cvg_image,cvg_fmap2,cvg_within_filter,cvg_app_within,meets_openr,meets_openl,meetsxx,proper_meetsxx,ultra_cvg_clusterE,ultraFilterLemma,compact_ultra,proper_image,in_ultra_setVsetC,ultra_image,filter_finI,close_cvg,discrete_cvg,nbhs_E,cvg_closeP,cvg_mx_entourageP,cvg_fct_entourageP,fcvg_ball2P,cvg_ball2P,cauchy_cvgP,mx_complete,Uniform_isComplete.Build,cauchy_ballP,cauchy_exP,cauchyP,compact_cauchy_cvg,pointwise_cvgE,pointwise_uniform_cvg,cvg_sigL,uniform_restrict_cvg,cvg_uniformU,cvg_uniform_set0,fam_cvgP,family_cvg_subset,family_cvg_finite_covers,fam_cvgE,Nbhs_isTopological,compact_open_fam_compactP,compact_cvg_within_compact,nbhs_subspace,subspace_cvgP,uniform_limit_continuous,uniform_limit_continuous_subspace,pointwise_compact_cvg tin module typePropInFilterSig
- definitions
- canonical
matrix_filtered-> instance usingisFiltered.Build - now use
nbhsinstead of[filter of ...]- notations
-->,E @[ x --> F ],f @ F,E `@[ x --> F ],f `@ G,{ptws, F --> f }
- notations
- notation
limis now a definition - canonical
filtered_prod-> instances usingisFiltered.Build,selfFiltered.Build - now use
set_systemand alsonbhsTypeinstead offilteredType ...- lemmas
cvg_ex,cvgP,cvg_toP,dvgP,cvgNpoint,eq_is_cvg
- lemmas
- canonicals
filter_on_eqType,filter_on_choiceType,filter_on_PointedType,filter_on_FilteredType-> instances usinggen_eqMixin,gen_choiceMixin,isPointed.Build,isFiltered.Build - canonical
bool_discrete_filter-> instance usinghasNbhs.Build - module
Topological(packed class) -> mixinNbhs_isTopological, structureTopological, typetopologicalType- definition
opennow a field of the mixin
- definition
- notation
continuousnow uses definitioncontinuous_at - section
TopologyOfFilter-> factoryNbhs_isNbhsTopological - section
TopologyOfOpen-> factoryPointed_isOpenTopological - section
TopologyOfBase-> factoryPointed_isBaseTopological - section
TopologyOfSubbase-> factoryPointed_isSubBaseTopological - definition
Pointed_isSubBaseTopological, canonicalsnat_filteredType,nat_topologicalType-> instance usingPointed_isBaseTopological.Build - filter now explicit in the notation
X --> Y- lemmas
cvg_addnr,cvg_subnr,cvg_mulnl,cvg_mulnr,cvg_divnr
- lemmas
- definition
prod_topologicalTypeMixin, canonicalprod_topologicalType-> instances usinghasNbhs.Build,Nbhs_isNbhsTopological.Build - definition
matrix_topologicalTypeMixin, canonicalmatrix_topologicalType-> instance usingNbhs_isNbhsTopological.Build - definitions
weak_topologicalTypeMixin,weak_topologicalType-> instances usingPointed.on,Pointed_isOpenTopological.Build - definitions
sup_topologicalTypeMixin,sup_topologicalType-> instances usingPointed.onandPointed_isSubBaseTopological.Build - definition
product_topologicalType-> definitionproduct_topology_defand instance usingTopological.copy - in
lim_id:nbhsnow explicit - canonical
bool_discrete_topology-> instance usingbool_discrete_topology - module
Uniform(packed class) -> mixinNbhs_isUniform_mixin, structureUniform, typeuniformType, factoriesNbhs_isUniform,isUniform - definition
prod_uniformType_mixin, canonicalprod_uniformType-> instance usingNbhs_isUniform.Build - definition
matrix_uniformType_mixin, canonicalmatrix_uniformType-> instance usingNbhs_isUniform.Build - definitions
weak_uniform_mixin,weak_uniformType-> instance usingNbhs_isUniform.Build - definitions
fct_uniformType_mixin,fct_topologicalTypeMixin,generic_source_filter,fct_topologicalType,fct_uniformType-> definitionarrow_uniformand instance usingarrow_uniform - definitions
sup_uniform_mixin,sup_uniformType-> instance usingNbhs_isUniform.Build - definition
product_uniformType-> instance usingUniform.copy - definition
discrete_uniformType-> instance usingChoice.on,Choice.on,discrete_uniform_mixin - module
PseudoMetric(packed class) -> factoryNbhs_isPseudoMetric - definition
ballnow a field of factoryNbhs_isPseudoMetric - definition
matrix_pseudoMetricType_mixin, canonicalmatrix_pseudoMetricType-> instance usingUniform_isPseudoMetric.Build - definition
prod_pseudoMetricType_mixin, canonicalprod_pseudoMetricType-> instance usingUniform_isPseudoMetric.Build - definition
fct_pseudoMetricType_mixin, canonicalfct_pseudoMetricType-> instance usingUniform_isPseudoMetric.Build - canonical
quotient_subtype-> instance usingQuotient.copy - canonical
quotient_eq-> instance using[Sub ... of ... by %/] - canonical
quotient_choice-> instance using[Choice of ... by <:] - canonical
quotient_pointed-> instance usingisPointed.Build - in definition
quotient_topologicalType_mixin:topologyOfOpenMixin->Pointed_isOpenTopological.Build - canonical
quotient_topologicalType-> instance usingquotient_topologicalType_mixin - lemma
repr_comp_continuoususes the notation\pi_instead of... == ... %[mod ...] - definition
discrete_pseudoMetricType-> instead usingdiscrete_pseudometric_mixin - module
Complete(packed class) -> mixinUniform_isComplete, structureComplete, typecompleteType- lemma
cauchy_cvgnow a mixin field
- lemma
- canonical
matrix_completeType-> instance usingUniform_isComplete.Build - canonical
fun_completeType-> instance usingUniform_isComplete.Build - module
CompletePseudoMetric(packed class) -> structureCompletePseudoMetric - matrix instance using
Uniform_isComplete.Build - function instance using
Uniform_isComplete.Build - module
regular_topology-> instances usingPointed.on,hasNbhs.Build,Nbhs_isPseudoMetric.Build - in module
numFieldTopology:realType,rcfType,archiFieldType,realFieldType,numClosedFieldType,numFieldTypeinstances usingPseudoMetric.copy
- definition
fct_RestrictedUniform,fct_RestrictedUniformTopology, canonicalfct_RestrictUniformFilteredType,fct_RestrictUniformTopologicalType,fct_restrictedUniformType-> definitionuniform_fun, instance usingUnifom.copyfor{uniform` _ -> _} - definitions
fct_Pointwise,fct_PointwiseTopology, canonicalsfct_PointwiseFilteredType,fct_PointwiseTopologicalType-> definitionpointwise_fun, instance usingTopological.copy - definition
compact_openK_topological_mixin, canonicalcompact_openK_filter,compact_openK_topological-> instances usingPointed.on,hasNbhs.Build,compact_openK_openE_subproofforcompact_openK - canonical
compact_open_pointedType, definitioncompact_open_topologicalType, canonicalscompact_open_filtered,compact_open_filtered-> definitioncompact_open_def, instances usingPointed.on,Nbhs.copy,Pointed.on,Nbhs_isTopological - definitions
weak_pseudoMetricType_mixin,weak_pseudoMetricType-> lemmasweak_pseudo_metric_ball_center,weak_pseudo_metric_entourageE, instance usingniform_isPseudoMetric.Build - definition
countable_uniform_pseudoMetricType_mixin-> modulecountable_uniformwith definitiontype, instances usingUniform.on,Uniform_isPseudoMetric.Build, lemmacountable_uniform_bounded, notationcountable_uniform - definitions
sup_pseudoMetric_mixin,sup_pseudoMetricType,product_pseudoMetricType-> instances usingPseudoMetric.on,PseudoMetric.copy - definitions
subspace_pointedType,subspace_topologicalMixin, canonicalssubspace_filteredType,subspace_topologicalType-> instance usingChoice.copy,isPointed.Build,hasNbhs.Build, lemmasnbhs_subspaceP_subproof,nbhs_subspace_singleton,nbhs_subspace_nbhs, instance usingNbhs_isNbhsTopological.Build - definition
subspace_uniformMixin, canonicalsubspace_uniformType-> instance usingNbhs_isUniform_mixin.Build - definition
subspace_pseudoMetricType_mixin, canonicalsubspace_pseudoMetricType-> lemmassubspace_pm_ball_center,subspace_pm_ball_sym,subspace_pm_ball_triangle,subspace_pm_entourageE, instance usingUniform_isPseudoMetric.Build - section
gauges-> modulegaugegauge_pseudoMetricType->gauge.type(instances usingUniform.on,PseudoMetric.on)gauge_uniformType->gauge.type
- canonicals
-
in
cantor.v:- in definition
tree_ofand lemmacantor_like_finite_prod:pointed_discrete->pointed_discrete_topology
- in definition
-
in
normedtype.v:- module
PseudoMetricNormedZmodule(packed class) -> mixinNormedZmod_PseudoMetric_eq(with fieldpseudo_metric_ball_norm), structurePseudoMetricNormedZmod - now use
set_system:- definitions
pinfty_nbhs,ninfty_nbhs,dominated_by,strictly_dominated_by,bounded_near,sub_klipschitz,lipschitz_on,sub_lipschitz - lemmas
cvgrnyP,cvgenyP,fcvgrPdist_lt,cvgrPdist_lt,cvgrPdistC_lt,cvgr_dist_lt,cvgr_distC_lt,cvgr_dist_le,cvgr_distC_le,cvgr0Pnorm_lt,cvgr0_norm_lt,cvgr0_norm_le,cvgrPdist_le,cvgrPdist_ltp,cvgrPdist_lep,cvgrPdistC_le,cvgrPdistC_ltp,cvgrPdistC_lep,cvgr0Pnorm_le,cvgr0Pnorm_ltp,cvgr0Pnorm_lep,cvgr_norm_lt,cvgr_norm_le,cvgr_norm_gt,cvgr_norm_ge,cvgr_neq0,real_cvgr_lt,real_cvgr_le,real_cvgr_gt,real_cvgr_ge,cvgr_lt,cvgr_le,cvgr_gt,cvgr_ge,sub_dominatedl,sub_dominatedr,ex_dom_bound,ex_strict_dom_bound,sub_boundedr,sub_boundedl,ex_bound,ex_strict_bound,ex_strict_bound_gt0,klipschitzW,cvg_bounded,fcvgr2dist_ltP,cvgr2dist_ltP,cvgr2dist_lt
- definitions
- module
NormedModule(packed class) -> mixinPseudoMetricNormedZmod_Lmodule_isNormedModule, structureNormedModule - module and section
regular_topology-> sectionregular_topologywith instances usingNum.NormedZmodule.on,NormedZmod_PseudoMetric_eq.Build,seudoMetricNormedZmod_Lmodule_isNormedModule.Build - in module
numFieldNormedTyperealTypeinstances usingGRing.ComAlgebra.copy,Vector.copy,NormedModule.copyrcfTypeinstances usingGRing.ComAlgebra.copy,Vector.copy,NormedModule.copyarchiFieldTypeinstances usingGRing.ComAlgebra.copy,Vector.copy,NormedModule.copyrealFieldTypeinstances usingGRing.ComAlgebra.copy,Vector.copy,NormedModule.copy,Num.RealField.onnumClosedFieldTypeinstances usingGRing.ComAlgebra.copy,Vector.copy,NormedModule.copy,Num.ClosedField.onnumFieldTypeinstances usingGRing.ComAlgebra.copy,Vector.copy,NormedModule.copy,Num.NumField.on
- in lemma
norm_lim_id: now explicit use ofnbhs - definition
matrix_PseudoMetricNormedZmodMixinand canonicalmatrix_normedModType-> instance usingPseudoMetricNormedZmod_Lmodule_isNormedModule.Build - definition
prod_pseudoMetricNormedZmodMixinand canonicalprod_normedModType-> instance usingPseudoMetricNormedZmod_Lmodule_isNormedModule.Build - module
CompleteNormedModule(packed class) -> structureCompleteNormedModule - canonicals
R_regular_completeType,R_regular_CompleteNormedModule-> instance usingUniform_isComplete.Build - canonicals
R_completeTypeandR_CompleteNormedModule-> instance usingComplete.on - now use
cvgninstead ofcvg:- lemma
cvg_seq_bounded
- lemma
- module
-
in
Rstruct.v:- canonicals
R_eqMixin,R_eqType-> instance usinghasDecEq.Build - definition
R_choiceMixinand canonicalR_choiceType-> instance usinghasChoice.Build - definition
R_zmodMixinand canonicalR_zmodType-> instance usingisZmodule.Build - definition
R_ringMixinand canonicalsR_ringType,R_comRingType-> instances usingZmodule_isRing.Build,Ring_hasCommutativeMul.Build - canonicals
Radd_monoid,Radd_comoid-> instance usingisComLaw.Build - canonicals
Rmul_monoid,Rmul_comoid-> instance usingisComLaw.Build - canonical
Rmul_mul_law-> instance usingisMulLaw.Build - canonical
Radd_add_law-> instance usingisAddLaw.Build - definition
R_unitRingMixinand canonicalR_unitRing-> instance usingRing_hasMulInverse.Build - canonicals
R_comUnitRingTypeandR_idomainType-> instance usingComUnitRing_isIntegral.Build - in lemma
R_fieldMixin:GRing.Field.mixin_of->GRing.field_axiom - definition
Definitionand canonicalR_fieldType-> instance usingUnitRing_isField.Build - definition
R_numMixin, canonicalsR_porderType,R_numDomainType,R_normedZmodType,R_numFieldType-> instance usingIntegralDomain_isNumRing.Build - in lemma
R_total:totalPOrderMixin->total - canonicals
R_latticeType,R_distrLatticeType,R_orderType,R_realDomainType,R_realFieldType-> instance usingPOrder_isTotal.Build - in lemmas
Rarchimedean_axiom,Rreal_closed_axiom:R_numDomainType->[the numDomainType of R : Type] - canonical
R_realArchiFieldType-> instance usingRealField_isArchimedean.Build - canonical
R_rcfType-> instance usingRealField_isClosed.Build - definition
real_realMixinand canonicalreal_realType-> instance usingArchimedeanField_isReal.Build
- canonicals
-
in
prodnormedzmodule.v:- definition
normedZmodMixinand canonicalnormedZmodType-> instance usingNum.Zmodule_isNormed.Build
- definition
-
in
ereal.v:- canonical
ereal_pointed-> instance usingisPointed.Build - definitions
ereal_dnbhs,ereal_nbhs-> now useset_system - canonical
ereal_ereal_filter-> instance usinghasNbhs.Build - definition
ereal_topologicalMixin, canonicalereal_topologicalType, definitionsereal_pseudoMetricType_mixin,ereal_uniformType_mixin, canonicalsereal_uniformType,ereal_pseudoMetricType-> instance usingNbhs_isPseudoMetric.Build
- canonical
-
"moved" from
normedtype.vtoRstruct.v:- canonicals
R_pointedType,R_filteredType,R_topologicalType,R_uniformType,R_pseudoMetricType-> instance usingPseudoMetric.copy
- canonicals
-
in
realfun.v:- now explicitly display the filter in the notation
X --> Y:- lemma s
cvg_at_rightP,cvg_at_leftP,cvge_at_rightP,cvge_at_leftP
- lemma s
- now explicitly display the filter in the notation
-
in
sequences.v:- the lemmas and the notations (in particular, bigop notations) that were using
cvgorcvg (... @ \oo)/limare now usingcvgn/limnand now explicitly mention the filter in the notationX --> Y
- the lemmas and the notations (in particular, bigop notations) that were using
-
in
trigo.v:- now make explicit mention of the filter:
- definitions
sin,cos - lemmas
cvg_series_cvg_series_group,lt_sum_lim_series,is_cvg_series_sin_coeff,sinE,cvg_sin_coeff',is_cvg_series_cos_coeff,cosE,cvg_cos_coeff'
- definitions
- now make explicit mention of the filter:
-
in
itv.v:- canonical
itv_subType-> instance using[isSub for ... ] - definitions
itv_eqMixin,itv_choiceMixinand canonicalsitv_eqType,itv_choiceType-> instance using[Choice of ... by <:] - definition
itv_porderMixinand canonicalitv_porderType-> instance using[SubChoice_isSubPOrder of ... by <: with ...]
- canonical
-
in
landau.v:- now use
set_system- structures
littleo_type,bigO_type,bigOmega_type,bigTheta_type - lemmas
littleo_class,littleoE,littleo,bigO_exP,bigO_class,bigO_clone,bigOP,bigOE,bigOmegaP,bigThetaP - definitions
littleo_clone,the_littleo,littleoP,the_bigO,bigOmega_clone,the_bigOmega,is_bigOmega,bigTheta_clone,is_bigTheta - variants
littleo_spec,bigOmega_spec,bigTheta_spec - notation
PhantomF - facts
is_bigOmega_key,is_bigTheta_key - canonicals
the_littleo_littleo,the_bigO_bigO,the_littleo_bigO,is_bigOmega_keyed,the_bigOmega_bigOmega,is_bigTheta_keyed,the_bigTheta_bigTheta
- structures
- canonical
littleo_subtype-> instance using[isSub for ...] - canonical
bigO_subtype-> instance using[isSub for ...] - in
linear_for_continuous:GRing.Scale.op s_law->GRing.Scale.Law.sort- argument
s_lawremoved
- canonical
bigOmega_subtype-> instance using[isSub for ...] - canonical
bigTheta_subtype-> instance using[isSub for ...]
- now use
-
in
forms.v:- module
Bilinear(packed class) -> mixinisBilinear, structureBilinear, definitionbilinear_for, factorybilinear_isBilinear, new moduleBilinearcontaining the definitionmap - canonical
mulmx_bilinear-> lemmamulmx_is_bilinearand instance usingbilinear_isBilinear.Build
- module
-
in
derive.v- in notation
'd,differentiable,is_diff:[filter of ...]->nbhs F - canonical
mulr_linear-> instance usingisLinear.Build - canonical
mulr_rev_linear-> instance usingisLinear.Build - canonical
mulr_bilinear-> lemmamulr_is_bilinearand instance usingbilinear_isBilinear.Build set (set ...)->set_system ...
- in notation
-
in
esum.v:- several occurrences of
cvg/limchanged tocvgn/limnand usages of the notationX --> Ychanged toX @ F --> Y(with an explicit filter)is_cvg_pseries_inside_normis_cvg_pseries_insidepseries_diffs_equivis_cvg_pseries_diffs_equivpseries_snd_diffsexpREdvg_riemannR
- several occurrences of
-
in
numfun.v:- canonicals
fimfun_mul,fimfun_ring,fimfun_ringType, definitionfimfun_ringMixin-> instances usingGRing.isMulClosed.Buildand[SubZmodule_isSubRing of ... by <:] - definition
fimfun_comRingMixin, canonicalfimfun_comRingType-> instance using[SubRing_isSubComRing of ... by <:]
- canonicals
-
in
measure.v- canonicals
salgebraType_eqType,salgebraType_choiceType,salgebraType_ptType-> instance usingPointed.on - filter now explicit in:
- definitions
sigma_additive,semi_sigma_additive - lemmas
nondecreasing_cvg_mu,nonincreasing_cvg_mu
- definitions
- canonicals
ring_eqType,ring_choiceType,ring_ptType-> instance usingPointed.on
- canonicals
-
in
lebesgue_measure.v:- filter now explicit in lemmas
emeasurable_fun_cvg,ae_pointwise_almost_uniform
- filter now explicit in lemmas
-
in
lebesgue_integral.v:- canonical
mfun_subType-> instance usingisSub.Build - definitions
mfuneqMixin,mfunchoiceMixin, canonicalsmfuneqType,mfunchoiceType-> instance using[Choice of ... by <:] - canonicals
mfun_add,mfun_zmod,mfun_mul,mfun_subring,mfun_zmodType,mfun_ringType,mfun_comRingType, definitionsmfun_zmodMixin,mfun_ringMixin,mfun_comRingMixin, -> instances usingGRing.isSubringClosed.Buildand[SubChoice_isSubComRing of ... <:] - canonical
sfun_subType-> instance usingisSub.Build - definitions
sfuneqMixin,sfunchoiceMixin, canonicalssfuneqType,sfunchoiceType-> instance using[Choice of .. by <:] - canonicals
sfun_add,sfun_zmod,sfun_mul,sfun_subring,sfun_zmodType,sfun_ringType,sfun_comRingType, definitionssfun_zmodMixin,sfun_ringMixin,sfun_comRingMixin-> instances usingGRing.isSubringClosed.Buildand[SubChoice_isSubComRing of ... by <:] - now use
cvgn/limninstead ofcvg/lim:- lemmas
is_cvg_sintegral,nd_sintegral_lim_lemma,nd_sintegral_lim,nd_ge0_integral_lim,dvg_approx,ecvg_approx
- lemmas
- filter now explicit in:
- lemmas
approximation,approximation_sfun,cvg_monotone_convergence
- lemmas
- canonical
-
in
kernel.v:- notation
X --> Ychanged toX @ F --< Ymeasurable_fun_xsection_integral
- definition
prob_pointedand canonicalprobability_ptType-> instance usingisPointed.Build - canonicals
probability_eqType,probability_choiceType-> instance usinggen_eqMixinandgen_choiceMixin
- notation
-
in
summability.v:totallynow usesset_system
-
in
altreals/discrete.v:- canonical
pred_sub_subTypeP-> instance using[isSub for ...] - definition
pred_sub_eqMixinand canonicalpred_sub_eqType-> instance using[Equality of ... by <:] - definition
pred_sub_choiceMixinand canonicalpred_sub_choiceType-> instance using[Choice of ... <:] - definition
pred_sub_countMixinandpred_sub_countType-> instance using[Countable of ... by <:] - definitions
countable_countMixinandcountable_countType->countable_countMixin - definitions
countable_choiceMixinandcountable_choiceType->countable_choiceMixin
- canonical
-
in
altreals/xfinmap.v:- in lemmas
enum_fset0andenum_fset1: notation[fintype of ...]-> type constraint... : finType
- in lemmas
-
in
misc/uniform_bigO.v:- in definition
OuO:[filter of ...]->nbhs ...
- in definition
-
in
cantor.v:- in definition
cantor_space:product_uniformType->prod_topology- instances using
Pointed.on,Nbhs.on,Topological.on
- instances using
- in definition
-
in
topology.v:- now use
nbhsTypeinstead oftopologicalType- lemma
near_fun - definition
discrete_space - definition
discrete_uniform_mixin - definition
discrete_ball, lemmadiscrete_ball_center, definitiondiscrete_pseudometric_mixin
- lemma
- now use
-
in
mathcomp_extra.v:- coercion
choice.Choice.mixin - lemmas
bigminr_maxr, definitionsAC_subdef,oAC,opACE, canonicalsopAC_law,opAC_com_law - lemmas
some_big_AC,big_ACE,big_undup_AC,perm_big_AC,big_const_idem,big_id_idem,big_mkcond_idem,big_split_idem,big_id_idem_AC,bigID_idem,big_rem_AC,bigD1_AC,sub_big,sub_big_seq,sub_big_seq_cond,uniq_sub_big,uniq_sub_big_cond,sub_big_idem,sub_big_idem_cond,sub_in_big,le_big_ord,subset_big,subset_big_cond,le_big_nat,le_big_ord_cond - lemmas
bigmax_le,bigmax_lt,lt_bigmin,le_bigmin - lemmas
bigmax_mkcond,bigmax_split,bigmax_idl,bigmax_idr,bigmaxID - lemmas
sub_bigmax,sub_bigmax_seq,sub_bigmax_cond,sub_in_bigmax,le_bigmax_nat,le_bigmax_nat_cond,le_bigmax_ord,le_bigmax_ord_cond,subset_bigmax,subset_bigmax_cond - lemmas
bigmaxD1,le_bigmax_cond,le_bigmax,bigmax_sup,bigmax_leP,bigmax_ltP,bigmax_eq_arg,eq_bigmax,le_bigmax2 - lemmas
bigmin_mkcond,bigmin_split,bigmin_idl,bigmin_idr,bigminID - lemmas
sub_bigmin,sub_bigmin_cond,sub_bigmin_seq,sub_in_bigmin,le_bigmin_nat,le_bigmin_nat_cond,le_bigmin_ord,le_bigmin_ord_cond,subset_bigmin,subset_bigmin_cond - lemmas
bigminD1,bigmin_le_cond,bigmin_le,bigmin_inf,bigmin_geP,bigmin_gtP,bigmin_eq_arg,eq_bigmin
- coercion
-
in
boolp.v:- definitions
dep_arrow_eqType,dep_arrow_choiceClass,dep_arrow_choiceType
- definitions
-
in
classical_sets.v:- notations
PointedType,[pointedType of ...]
- notations
-
in
cardinality.v:- lemma
countable_setT_countMixin
- lemma
-
in
constructive_ereal.v:- canonicals
isLaw.Build,mine_comoid
- canonicals
-
in
topology.v:- structure
source, definitionsource_filter - definition
filter_of, notation[filter of ...](now replaced bynbhs), lemmafilter_of_filterE - definition
open_of_nbhs - definition
open_from, lemmaopen_fromT - canonical
eventually_filter_source - canonical
discrete_topological_mixin - canonical
set_filter_source - definitions
filtered_of_normedZmod,pseudoMetric_of_normedDomain - definitions
fct_UniformFamily(useuniform_fun_familyinstead), canonicalsfct_UniformFamilyFilteredType,fct_UniformFamilyTopologicalType,fct_UniformFamilyUniformType
- structure
-
in
cantor.v:- definition
pointed_discrete
- definition
-
in
normedtype.v:filtered_of_normedZmod- section
pseudoMetric_of_normedDomain- lemmas
ball_norm_center,ball_norm_symmetric,ball_norm_triangle,nbhs_ball_normE - definition
pseudoMetric_of_normedDomain
- lemmas
- lemma
normrZ - canonical
matrix_normedZmodType - lemmas
eq_cvg,eq_is_cvg
-
in
convex.v:- field
convexspacechoiceclass, canonicalsconv_eqType,conv_choiceType,conv_choiceType
- field
-
in
measure.v:- field
ptclassin mixinisSemiRingOfSets - canonicals
ringOfSets_eqType,ringOfSets_choiceType,ringOfSets_ptType,algebraOfSets_eqType,algebraOfSets_choiceType,algebraOfSets_ptType,measurable_eqType,measurable_choiceType,measurable_ptType - field
ptclassin factoryisAlgebraOfSets - field
ptclassin factoryisMeasurable
- field
-
in
lebesgue_measure.v:- no more "pointed class" argument in definition
ereal_isMeasurable
- no more "pointed class" argument in definition
-
in
lebesgue_stieltjes_measure.v- lemma
sigmaT_finite_lebesgue_stieltjes_measureturned into aLet
- lemma
-
in
altreals/discrete.v:- notation
[countable of ...]
- notation
-
in
mathcomp_extra.v:- lemmas
last_filterP,path_lt_filter0,path_lt_filterT,path_lt_head,path_lt_last_filter,path_lt_le_last
- lemmas
-
new file
contra.v- lemma
assume_not - tactic
assume_not - lemma
absurd_not - tactics
absurd_not,contrapose - tactic notations
contra,contra : constr(H),contra : ident(H),contra : { hyp_list(Hs) } constr(H),contra : { hyp_list(Hs) } ident(H),contra : { - } constr(H) - lemma
absurd - tactic notations
absurd,absurd constr(P),absurd : constr(H),absurd : ident(H),absurd : { hyp_list(Hs) } constr(H),absurd : { hyp_list(Hs) } ident(H)
- lemma
-
in
topology.v:- lemma
filter_bigI_within - lemma
near_powerset_map - lemma
near_powerset_map_monoE - lemma
fst_open - lemma
snd_open - definition
near_covering_within - lemma
near_covering_withinP - lemma
compact_setM - lemma
compact_regular - lemma
fam_compact_nbhs - definition
compact_open, notation{compact-open, U -> V} - notation
{compact-open, F --> f} - definition
compact_openK - definition
compact_openK_nbhs - instance
compact_openK_nbhs_filter - definition
compact_openK_topological_mixin - canonicals
compact_openK_filter,compact_openK_topological,compact_open_pointedType - definition
compact_open_topologicalType - canonicals
compact_open_filtered,compact_open_topological - lemma
compact_open_cvgP - lemma
compact_open_open - lemma
compact_closedI - lemma
compact_open_fam_compactP - lemma
compact_equicontinuous - lemma
uniform_regular - lemma
continuous_curry - lemma
continuous_uncurry_regular - lemma
continuous_uncurry - lemma
curry_continuous - lemma
uncurry_continuous
- lemma
-
in
ereal.v:- lemma
ereal_supy
- lemma
-
in file
normedtype.v,- new lemma
continuous_within_itvP.
- new lemma
-
in file
realfun.v,-
new definitions
itv_partition,itv_partitionL,itv_partitionR,variation,variations,bounded_variation,total_variation,neg_tv, andpos_tv. -
new lemmas
left_right_continuousP,nondecreasing_funN,nonincreasing_funN -
new lemmas
itv_partition_nil,itv_partition_cons,itv_partition1,itv_partition_size_neq0,itv_partitionxx,itv_partition_le,itv_partition_cat,itv_partition_nth_size,itv_partition_nth_ge,itv_partition_nth_le,nondecreasing_fun_itv_partition,nonincreasing_fun_itv_partition,itv_partitionLP,itv_partitionRP,in_itv_partition,notin_itv_partition,itv_partition_rev, -
new lemmas
variation_zip,variation_prev,variation_next,variation_nil,variation_ge0,variationN,variation_le,nondecreasing_variation,nonincreasing_variation,variationD,variation_itv_partitionLR,le_variation,variation_opp_rev,variation_rev_opp -
new lemmas
variations_variation,variations_neq0,variationsN,variationsxx -
new lemmas
bounded_variationxx,bounded_variationD,bounded_variationN,bounded_variationl,bounded_variationr,variations_opp,nondecreasing_bounded_variation -
new lemmas
total_variationxx,total_variation_ge,total_variation_ge0,bounded_variationP,nondecreasing_total_variation,total_variationN,total_variation_le,total_variationD,neg_tv_nondecreasing,total_variation_pos_neg_tvE,fine_neg_tv_nondecreasing,neg_tv_bounded_variation,total_variation_right_continuous,neg_tv_right_continuous,total_variation_opp,total_variation_left_continuous,total_variation_continuous
-
-
in
lebesgue_stieltjes_measure.v:sigma_finite_measureHB instance onlebesgue_stieltjes_measure
-
in
lebesgue_measure.v:sigma_finite_measureHB instance onlebesgue_measure
-
in
lebesgue_integral.v:sigma_finite_measureinstance on product measure\x
- in
topology.v:- lemmas
nbhsx_ballxandnear_balltake a parameter of typeRinstead of{posnum R} - lemma
pointwise_compact_cvg
- lemmas
-
in
realfun.v:- lemmas
nonincreasing_at_right_cvgr,nonincreasing_at_left_cvgr - lemmas
nondecreasing_at_right_cvge,nondecreasing_at_right_is_cvge,nonincreasing_at_right_cvge,nonincreasing_at_right_is_cvge
- lemmas
-
in
realfun.v:- lemmas
nonincreasing_at_right_is_cvgr,nondecreasing_at_right_is_cvgr
- lemmas
-
in
boolp.v:- tactic
eqProp - variant
BoolProp - lemmas
PropB,notB,andB,orB,implyB,decide_or,not_andE,not_orE,orCA,orAC,orACA,orNp,orpN,or3E,or4E,andCA,andAC,andACA,and3E,and4E,and5E,implyNp,implypN,implyNN,or_andr,or_andl,and_orr,and_orl,exists2E,inhabitedE,inhabited_witness
- tactic
-
in
topology.v,- new lemmas
perfect_set2, andent_closure. - lemma
clopen_surj - lemma
nbhs_dnbhs_neq - lemma
dnbhs_ball
- new lemmas
-
in
constructive_ereal.v- lemma
lee_subgt0Pr
- lemma
-
in
ereal.v:- lemmas
ereal_sup_le,ereal_inf_le
- lemmas
-
in
normedtype.v:- hints for
at_right_proper_filterandat_left_proper_filter - definition
lower_semicontinuous - lemma
lower_semicontinuousP - lemma
not_near_at_rightP - lemmas
withinN,at_rightN,at_leftN,cvg_at_leftNP,cvg_at_rightNP - lemma
dnbhsN - lemma
limf_esup_dnbhsN - definitions
limf_esup,limf_einf - lemmas
limf_esupE,limf_einfE,limf_esupN,limf_einfN
- hints for
-
in
sequences.v:- lemma
minr_cvg_0_cvg_0 - lemma
mine_cvg_0_cvg_fin_num - lemma
mine_cvg_minr_cvg - lemma
mine_cvg_0_cvg_0 - lemma
maxr_cvg_0_cvg_0 - lemma
maxe_cvg_0_cvg_fin_num - lemma
maxe_cvg_maxr_cvg - lemma
maxe_cvg_0_cvg_0 - lemmas
limn_esup_lim,limn_einf_lim
- lemma
-
in file
cantor.v,- new definitions
cantor_space,cantor_like,pointed_discrete, andtree_of. - new lemmas
cantor_space_compact,cantor_space_hausdorff,cantor_zero_dimensional,cantor_perfect,cantor_like_cantor_space,tree_map_props,homeomorphism_cantor_like, andcantor_like_finite_prod. - new theorem
cantor_surj.
- new definitions
-
in
numfun.v:- lemma
patch_indic
- lemma
-
in
realfun.v:- notations
nondecreasing_fun,nonincreasing_fun,increasing_fun,decreasing_fun - lemmas
cvg_addrl,cvg_addrr,cvg_centerr,cvg_shiftr,nondecreasing_cvgr,nonincreasing_at_right_cvgr,nondecreasing_at_right_cvgr,nondecreasing_cvge,nondecreasing_is_cvge,nondecreasing_at_right_cvge,nondecreasing_at_right_is_cvge,nonincreasing_at_right_cvge,nonincreasing_at_right_is_cvge - lemma
cvg_at_right_left_dnbhs - lemma
cvg_at_rightP - lemma
cvg_at_leftP - lemma
cvge_at_rightP - lemma
cvge_at_leftP - lemma
lime_sup - lemma
lime_inf - lemma
lime_supE - lemma
lime_infE - lemma
lime_infN - lemma
lime_supN - lemma
lime_sup_ge0 - lemma
lime_inf_ge0 - lemma
lime_supD - lemma
lime_sup_le - lemma
lime_inf_sup - lemma
lim_lime_inf - lemma
lim_lime_sup - lemma
lime_sup_inf_at_right - lemma
lime_sup_inf_at_left - lemmas
lime_sup_lim,lime_inf_lim
- notations
-
in file
measure.v- add lemmas
ae_eq_subset,measure_dominates_ae_eq.
- add lemmas
-
in
lebesgue_measure.v- lemma
lower_semicontinuous_measurable
- lemma
-
in
lebesgue_integral.v:- definition
locally_integrable - lemmas
integrable_locally,locally_integrableN,locally_integrableD,locally_integrableB - definition
iavg - lemmas
iavg0,iavg_ge0,iavg_restrict,iavgD - definitions
HL_maximal - lemmas
HL_maximal_ge0,HL_maximalT_ge0,lower_semicontinuous_HL_maximal,measurable_HL_maximal,maximal_inequality
- definition
-
in
charge.v- definition
charge_of_finite_measure(instance ofcharge) - lemmas
dominates_cscalel,dominates_cscaler - definition
cpushforward(instance ofcharge) - lemma
dominates_pushforward - lemma
cjordan_posE - lemma
jordan_posE - lemma
cjordan_negE - lemma
jordan_negE - lemma
Radon_Nikodym_sigma_finite - lemma
Radon_Nikodym_fin_num - lemma
Radon_Nikodym_integral - lemma
ae_eq_Radon_Nikodym_SigmaFinite - lemma
Radon_Nikodym_change_of_variables - lemma
Radon_Nikodym_cscale - lemma
Radon_Nikodym_cadd - lemma
Radon_Nikodym_chain_rule
- definition
-
in
boolp.v- lemmas
orCandandCnow usecommutative
- lemmas
-
moved from
topology.vtomathcomp_extra.v- definition
monotonous
- definition
-
in
normedtype.v:- lemmas
vitali_lemma_finiteandvitali_lemma_finite_covernow returns duplicate-free lists of indices
- lemmas
-
in
sequences.v:- change the implicit arguments of
trivIset_seqDU limn_esupnow defined fromlime_suplimn_einfnow defined fromlimn_esup
- change the implicit arguments of
-
moved from
lebesgue_integral.vtomeasure.v:- definition
ae_eq - lemmas
ae_eq0,ae_eq_comp,ae_eq_funeposneg,ae_eq_refl,ae_eq_trans,ae_eq_sub,ae_eq_mul2r,ae_eq_mul2l,ae_eq_mul1l,ae_eq_abse
- definition
-
in
charge.v- definition
jordan_decompnow usescaddandcscale - definition
Radon_Nikodym_SigmaFinitenow in a moduleRadon_Nikodym_SigmaFinitewith- definition
f - lemmas
f_ge0,f_fin_num,f_integrable,f_integral - lemma
change_of_variables - lemma
integralM - lemma
chain_rule
- definition
- definition
-
in
exp.v:lnX->lnXn
-
in
charge.v:dominates_caddl->dominates_cadd
-
in
lebesgue_measure.v- an hypothesis of lemma
integral_ae_eqis weakened
- an hypothesis of lemma
-
in
lebesgue_integral.vge0_integral_bigsetUgeneralized fromnattoeqType
-
in
boolp.v:- lemma
pdegen
- lemma
-
in
forms.v:- lemmas
eq_map_mx,map_mx_id
- lemmas
-
in
mathcomp_extra.v- lemmas
ge0_ler_normr,gt0_ler_normr,le0_ger_normrandlt0_ger_normr - lemma
leq_ltn_expn - lemma
onemV
- lemmas
-
in
classical_sets.v:- lemma
set_cons1 - lemma
trivIset_bigcup - definition
maximal_disjoint_subcollection - lemma
ex_maximal_disjoint_subcollection - lemmas
mem_not_I,trivIsetT_bigcup
- lemma
-
in
constructive_ereal.v:- lemmas
gt0_fin_numE,lt0_fin_numE - lemmas
le_er_map,er_map_idfun
- lemmas
-
in
reals.v:- lemma
le_inf - lemmas
ceilN,floorN
- lemma
-
in
topology.v:- lemmas
closure_eq0,separated_open_countable
- lemmas
-
in
normedtype.v:- lemmas
ball0,ball_itv,closed_ball0,closed_ball_itv - definitions
cpoint,radius,is_ball - definition
scale_ball, notation notation*` - lemmas
sub_scale_ball,scale_ball1,sub1_scale_ball - lemmas
ball_inj,radius0,cpoint_ball,radius_ball_num,radius_ball,is_ballP,is_ball_ball,scale_ball_set0,ballE,is_ball_closure,scale_ballE,cpoint_scale_ball,radius_scale_ball - lemmas
vitali_lemma_finite,vitali_lemma_finite_cover - definition
vitali_collection_partition - lemmas
vitali_collection_partition_ub_gt0,ex_vitali_collection_partition,cover_vitali_collection_partition,disjoint_vitali_collection_partition - lemma
separate_closed_ball_countable - lemmas
vitali_lemma_infinite,vitali_lemma_infinite_cover - lemma
open_subball - lemma
closed_disjoint_closed_ball - lemma
is_scale_ball - lemmas
scale_ball0,closure_ball,bigcup_ballT
- lemmas
-
in
sequences.v:- lemma
nneseries_tail_cvg
- lemma
-
in
exp.v:- definition
expeR - lemmas
expeR0,expeR_ge0,expeR_gt0 - lemmas
expeR_eq0,expeRD,expeR_ge1Dx - lemmas
ltr_expeR,ler_expeR,expeR_inj,expeR_total - lemmas
mulr_powRB1,fin_num_poweR,poweRN,poweR_lty,lty_poweRy,gt0_ler_poweR - lemma
expRM
- definition
-
in
measure.v:- lemmas
negligibleI,negligible_bigsetU,negligible_bigcup - lemma
probability_setC - lemma
measure_sigma_sub_additive_tail - lemma
outer_measure_sigma_subadditive_tail
- lemmas
-
new
lebesgue_stieltjes_measure.v:- notation
right_continuous - lemmas
right_continuousW,nondecreasing_right_continuousP - mixin
isCumulative, structureCumulative, notationcumulative idfuninstance ofCumulativewlength,wlength0,wlength_singleton,wlength_setT,wlength_itv,wlength_finite_fin_num,finite_wlength_itv,wlength_itv_bnd,wlength_infty_bnd,wlength_bnd_infty,infinite_wlength_itv,wlength_itv_ge0,wlength_Rhull,le_wlength_itv,le_wlength,wlength_semi_additive,wlength_ge0,lebesgue_stieltjes_measure_unique- content instance of
hlength cumulative_content_sub_fsum,wlength_sigma_sub_additive,wlength_sigma_finite- measure instance of
hlength - definition
lebesgue_stieltjes_measure
- notation
-
in
lebesgue_measure.v:- lemma
lebesgue_measurable_ball - lemmas
measurable_closed_ball,lebesgue_measurable_closed_ball - definition
vitali_cover - lemma
vitali_theorem
- lemma
-
in
lebesgue_integral.v:mfuninstances forexpRandcomp- lemma
abse_integralP
-
in
charge.v:- factory
isCharge - Notations
.-negative_set,.-positive_set - lemmas
dominates_cscale,Radon_Nikodym_cscale - definition
cadd, lemmasdominates_caddl,Radon_Nikodym_cadd
- factory
-
in
probability.v:- definition
mmt_gen_fun,chernoff
- definition
-
in
hoelder.v:- lemmas
powR_Lnorm,minkowski
- lemmas
-
in
normedtype.v:- order of arguments of
squeeze_cvgr
- order of arguments of
-
moved from
derive.vtonormedtype.v:- lemmas
cvg_at_rightE,cvg_at_leftE
- lemmas
-
in
measure.v:- order of parameters changed in
semi_sigma_additive_is_additive,isMeasure
- order of parameters changed in
-
in
lebesgue_measure.v:- are now prefixed with
LebesgueMeasure:hlength,hlength0,hlength_singleton,hlength_setT,hlength_itv,hlength_finite_fin_num,hlength_infty_bnd,hlength_bnd_infty,hlength_itv_ge0,hlength_Rhull,le_hlength_itv,le_hlength,hlength_ge0,hlength_semi_additive,hlength_sigma_sub_additive,hlength_sigma_finite,lebesgue_measurefinite_hlengthErenamed tofinite_hlentgh_itvpinfty_hlengthrenamed toinfinite_hlength_itv
lebesgue_measurenow defined withlebesgue_stieltjes_measurelebesgue_measure_itvdoes not refer tohlengthanymore- remove one argument of
lebesgue_regularity_inner_sup
- are now prefixed with
-
moved from
lebesgue_measure.vtolebesgue_stieltjes_measure.v- notations
_.-ocitv,_.-ocitv.-measurable - definitions
ocitv,ocitv_display - lemmas
is_ocitv,ocitv0,ocitvP,ocitvD,ocitvI
- notations
-
in
lebesgue_integral.v:integral_diracnow uses the\d_notation- order of arguments in the lemma
le_abse_integral
-
in
hoelder.v:- definition
LnormnowHB.locked
- definition
-
in
probability.v:markovnow usesNum.nneg
-
in
ereal.v:le_er_map->le_er_map_in
-
in
sequences.v:lim_sup->limn_suplim_inf->limn_inflim_infN->limn_infNlim_supE->limn_supElim_infE->limn_infElim_inf_le_lim_sup->limn_inf_supcvg_lim_inf_sup->cvg_limn_inf_supcvg_lim_supE->cvg_limn_supEle_lim_supD->le_limn_supDle_lim_infD->le_limn_infDlim_supD->limn_supDlim_infD->limn_infDLimSup.lim_esup->limn_esupLimSup.lim_einf->limn_einflim_einf_shift->limn_einf_shiftlim_esup_le_cvg->limn_esup_le_cvglim_einfN->limn_einfNlim_esupN->limn_esupNlim_einf_sup->limn_einf_supcvgNy_lim_einf_sup->cvgNy_limn_einf_supcvg_lim_einf_sup->cvg_limn_einf_supis_cvg_lim_einfE->is_cvg_limn_einfEis_cvg_lim_esupE->is_cvg_limn_esupEereal_nondecreasing_cvg->ereal_nondecreasing_cvgnereal_nondecreasing_is_cvg->ereal_nondecreasing_is_cvgnereal_nonincreasing_cvg->ereal_nonincreasing_cvgnereal_nonincreasing_is_cvg->ereal_nonincreasing_is_cvgnereal_nondecreasing_opp->ereal_nondecreasing_oppnnonincreasing_cvg_ge->nonincreasing_cvgn_genondecreasing_cvg_le->nondecreasing_cvgn_lenonincreasing_cvg->nonincreasing_cvgnnondecreasing_cvg->nondecreasing_cvgnnonincreasing_is_cvg->nonincreasing_is_cvgnnondecreasing_is_cvg->nondecreasing_is_cvgnnear_nonincreasing_is_cvg->near_nonincreasing_is_cvgnnear_nondecreasing_is_cvg->near_nondecreasing_is_cvgnnondecreasing_dvg_lt->nondecreasing_dvgn_lt
-
in
lebesgue_measure.v:measurable_fun_lim_sup->measurable_fun_limn_supmeasurable_fun_lim_esup->measurable_fun_limn_esup
-
in
charge.visCharge->isSemiSigmaAdditive
-
in
classical_sets.v:set_nilgeneralized toeqType
-
in
topology.v:ball_filtergeneralized torealDomainType
-
in
lebesgue_integral.v:- weaken an hypothesis of
integral_ae_eq
- weaken an hypothesis of
-
lebesgue_measure_unique(generalized tolebesgue_stieltjes_measure_unique) -
in
sequences.v:- notations
elim_sup,elim_inf LimSup.lim_esup,LimSup.lim_einfelim_inf_shiftelim_sup_le_cvgelim_infNelim_supNelim_inf_supcvg_ninfty_elim_inf_supcvg_ninfty_einfscvg_ninfty_esupscvg_pinfty_einfscvg_pinfty_esupscvg_elim_inf_supis_cvg_elim_infEis_cvg_elim_supE
- notations
-
in
lebesgue_measure.v:measurable_fun_elim_sup
- in
mathcomp_extra.v:- lemmas
le_bigmax_seq,bigmax_sup_seq - lemma
gerBl
- lemmas
- in
classical_sets.v:- lemma
setU_id2r
- lemma
- in
ereal.v:- lemmas
uboundT,supremumsT,supremumT,ereal_supT,range_oppe,ereal_infT
- lemmas
- in
constructive_ereal.v:- lemma
eqe_pdivr_mull - lemma
bigmaxe_fin_num
- lemma
- in file
topology.v,- new definition
regular_space. - new lemma
ent_closure.
- new definition
- in
normedtype.v:- lemmas
open_itvoo_subset,open_itvcc_subset - new lemmas
normal_openP,uniform_regular,regular_openP, andpseudometric_normal.
- lemmas
- in
sequences.v:- lemma
cvge_harmonic
- lemma
- in
convex.v:- lemmas
conv_gt0,convRE - definition
convex_function
- lemmas
- in
exp.v:- lemmas
concave_ln,conjugate_powR - lemmas
ln_le0,ger_powR,ler1_powR,le1r_powR,ger1_powR,ge1r_powR,ge1r_powRZ,le1r_powRZ - lemma
gt0_ltr_powR - lemma
powR_injective
- lemmas
- in
measure.v:- lemmas
outer_measure_subadditive,outer_measureU2 - definition
ess_sup, lemmaess_sup_ge0
- lemmas
- in
lebesgue_measure.v:- lemma
compact_measurable - declare
lebesgue_measureas aSigmaFiniteinstance - lemma
lebesgue_regularity_inner_sup - lemma
measurable_ball - lemma
measurable_mulrr
- lemma
- in
lebesgue_integral.v,- new lemmas
integral_le_bound,continuous_compact_integrable, andlebesgue_differentiation_continuous. - new lemmas
simple_bounded,measurable_bounded_integrable,compact_finite_measure,approximation_continuous_integrable - lemma
ge0_integral_count
- new lemmas
- in
kernel.v:kseriesis now an instance ofKernel_isSFinite_subdef
- new file
hoelder.v:- definition
Lnorm, notations'N[mu]_p[f],'N_p[f] - lemmas
Lnorm1,Lnorm_ge0,eq_Lnorm,Lnorm_eq0_eq0 - lemma
hoelder - lemmas
Lnorm_counting,hoelder2,convex_powR
- definition
- in
cardinality.v:- implicits of
fimfunP
- implicits of
- in
constructive_ereal.v:lee_adderenamed tolee_addgt0Prand turned into a reflectlee_dadderenamed tolee_daddgt0Prand turned into a reflect
- in
exp.v:gt0_ler_powRnow usesNum.nneg
- removed dependency in
Rstruct.vonnormedtype.v: - added dependency in
normedtype.vonRstruct.v: mnormalizemoved fromkernel.vtomeasure.vand generalized- in
measure.v:- implicits of
measurable_fstandmeasurable_snd
- implicits of
- in
lebesgue_integral.v- rewrote
negligible_integralto replace the positivity condition with an integrability condition, and addedge0_negligible_integral. - implicits of
integral_le_bound
- rewrote
- in
constructive_ereal.v:lee_opp->leeN2lte_opp->lteN2
- in
normedtype.v:normal_urysohnP->normal_separatorP.
- in
exp.v:gt0_ler_powR->ge0_ler_powR
- in
signed.v:- specific notation for
2%:R, now subsumed by number notations in MC >= 1.15 Note that when importing ssrint,2now denotes2%:~Rrather than2%:R, which are convertible but don't have the same head constant.
- specific notation for
- in
theories/Make- file
probability.v(wasn't compiled in OPAM packages up to now)
- file
- in
mathcomp_extra.v:- definition
min_fun, notation\min - new lemmas
maxr_absE,minr_absE
- definition
- in file
boolp.v,- lemmas
notP,notE - new lemma
implyE. - new lemmas
contra_lePandcontra_ltP
- lemmas
- in
classical_sets.v:- lemmas
set_predC,preimage_true,preimage_false - lemmas
properW,properxx - lemma
Zorn_bigcup - lemmas
imsub1andimsub1P - lemma
bigcup_bigcup
- lemmas
- in
constructive_ereal.v:- lemmas
lte_pmulr,lte_pmull,lte_nmulr,lte_nmull - lemmas
lte0n,lee0n,lte1n,lee1n - lemmas
fine0andfine1
- lemmas
- in file
reals.v:- lemmas
sup_sumE,inf_sumE
- lemmas
- in
signed.v:- lemmas
Posz_snum_subproofandNegz_snum_subproof - canonical instances
Posz_snumandNegz_snum
- lemmas
- in file
topology.v,- new lemma
uniform_nbhsT. - new definition
set_nbhs. - new lemmas
filterI_iter_sub,filterI_iterE,finI_fromI,filterI_iter_finI,smallest_filter_finI, andset_nbhsP. - lemma
bigsetU_compact - lemma
ball_symE - new lemma
pointwise_cvgP. - lemma
closed_bigcup - new definition
normal_space. - new lemmas
filter_inv, andcountable_uniform_bounded.
- new lemma
- in file
normedtype.v,- new definition
edist. - new lemmas
edist_ge0,edist_neqNy,edist_lt_ball,edist_fin,edist_pinftyP,edist_finP,edist_fin_open,edist_fin_closed,edist_pinfty_open,edist_sym,edist_triangle,edist_continuous,edist_closeP, andedist_refl. - new definitions
edist_inf,uniform_separator, andUrysohn. - new lemmas
continuous_min,continuous_max,edist_closel,edist_inf_ge0,edist_inf_neqNy,edist_inf_triangle,edist_inf_continuous,edist_inf0,Urysohn_continuous,Urysohn_range,Urysohn_sub0,Urysohn_sub1,Urysohn_eq0,Urysohn_eq1,uniform_separatorW,normal_uniform_separator,uniform_separatorP,normal_urysohnP, andsubset_closure_half.
- new definition
- in file
real_interval.v,- new lemma
bigcup_itvT.
- new lemma
- in
sequences.v:- lemma
eseries_cond - lemmas
eseries_mkcondl,eseries_mkcondr - new lemmas
geometric_partial_tail, andgeometric_le_lim.
- lemma
- in
exp.v:- lemmas
powRrM,gt0_ler_powR,gt0_powR,norm_powR,lt0_norm_powR,powRB - lemmas
poweRrM,poweRAC,gt0_poweR,poweR_eqy,eqy_poweR,poweRD,poweRB - notation
e `^?(r +? s) - lemmas
expR_eq0,powRN - definition
poweRD_def - lemmas
poweRD_defE,poweRB_defE,add_neq0_poweRD_def,add_neq0_poweRB_def,nneg_neq0_poweRD_def,nneg_neq0_poweRB_def - lemmas
powR_eq0,poweR_eq0
- lemmas
- in file
numfun.v,- new lemma
continuous_bounded_extension.
- new lemma
- in
measure.v:- lemma
lebesgue_regularity_outer - new lemmas
measureU0,nonincreasing_cvg_mu, andepsilon_trick0. - new lemmas
finite_card_sum, andmeasureU2.
- lemma
- in
lebesgue_measure.v:- lemma
closed_measurable - new lemmas
lebesgue_nearly_bounded, andlebesgue_regularity_inner. - new lemmas
pointwise_almost_uniform, andae_pointwise_almost_uniform. - lemmas
measurable_fun_ltr,measurable_minr
- lemma
- in file
lebesgue_integral.v,- new lemmas
lusin_simple, andmeasurable_almost_continuous. - new lemma
approximation_sfun_integrable.
- new lemmas
-
in
classical_sets.v:bigcup_bigcup_deprenamed tobigcup_setM_depand equality in the statement reversedbigcup_bigcuprenamed tobigcup_setMand equality in the statement reversed
-
in
sequences.v:- lemma
nneseriesrMgeneralized and renamed tonneseriesZl
- lemma
-
in
exp.v:- lemmas
power_posD(nowpowRD),power_posB(nowpowRB)
- lemmas
-
moved from
lebesgue_measure.vtoreal_interval.v:- lemmas
set1_bigcap_oc,itv_bnd_open_bigcup,itv_open_bnd_bigcup,itv_bnd_infty_bigcup,itv_infty_bnd_bigcup
- lemmas
-
moved from
functions.vtoclassical_sets.v:subsetP. -
moved from
normedtype.vtotopology.v:Rhausdorff.
- in
boolp.v:mextentionality->mextensionalityextentionality->extensionality
- in
classical_sets.v:bigcup_set_cond->bigcup_seq_condbigcup_set->bigcup_seqbigcap_set_cond->bigcap_seq_condbigcap_set->bigcap_seq
- in
normedtype.v:nbhs_closedballP->nbhs_closed_ballP
- in
exp.v:expK->expRKpower_pos_eq0->powR_eq0_eq0power_pos_inv->powR_invnpowere_pos_eq0->poweR_eq0_eq0power_pos->powRpower_pos_ge0->powR_ge0power_pos_gt0->powR_gt0gt0_power_pos->gt0_powRpower_pos0->powR0power_posr1->powRr1power_posr0->powRr0power_pos1->powR1ler_power_pos->ler_powRgt0_ler_power_pos->gt0_ler_powRpower_posM->powRMpower_posrM->powRrMpower_posAC->powRACpower_posD->powRDpower_posN->powRNpower_posB->powRBpower_pos_mulrn->powR_mulrnpower_pos_inv1->powR_inv1power_pos_intmul->powR_intmulln_power_pos->ln_powRpower12_sqrt->powR12_sqrtnorm_power_pos->norm_powRlt0_norm_power_pos->lt0_norm_powRpowere_pos->poweRpowere_pos_EFin->poweR_EFinpowere_posyr->poweRyrpowere_pose0->poweRe0powere_pose1->poweRe1powere_posNyr->poweRNyrpowere_pos0r->poweR0rpowere_pos1r->poweR1rfine_powere_pos->fine_poweRpowere_pos_ge0->poweR_ge0powere_pos_gt0->poweR_gt0powere_posM->poweRMpowere12_sqrt->poweR12_sqrt
- in
lebesgue_measure.v:measurable_power_pos->measurable_powR
- in
lebesgue_integral.v:ge0_integralM_EFin->ge0_integralZl_EFinge0_integralM->ge0_integralZlintegralM_indic->integralZl_indicintegralM_indic_nnsfun->integralZl_indic_nnsfunintegrablerM->integrableZlintegrableMr->integrableZrintegralM->integralZl
- in
sequences.v:- lemmas
is_cvg_nneseries_cond,is_cvg_npeseries_cond - lemmas
is_cvg_nneseries,is_cvg_npeseries - lemmas
nneseries_ge0,npeseries_le0 - lemmas
eq_eseriesr,lee_nneseries
- lemmas
- in
exp.v:- lemmas
convex_expR,ler_power_pos(nowler_powR) - lemma
ln_power_pos(nowln_powR) - lemma
ln_power_pos
- lemmas
- in
measure.v:- lemmas
measureDI,measureD,measureUfinl,measureUfinr,null_set_setU,measureU0(from measure to content) - lemma
subset_measure0(fromrealTypetorealFieldType)
- lemmas
- in file
lebesgue_integral.v, updatedle_approx.
- in
topology.v:- lemma
my_ball_le(useball_leinstead)
- lemma
- in
signed.v:- lemma
nat_snum_subproof - canonical instance
nat_snum(useless, there is already a default instance pointing to the typ_snum mechanism (then identifying nats as >= 0))
- lemma
- in
mathcomp_extra.v- definition
coefE(will be in MC 2.1/1.18) - lemmas
deg2_poly_canonical,deg2_poly_factor,deg2_poly_min,deg2_poly_minE,deg2_poly_ge0,Real.deg2_poly_factor,deg_le2_poly_delta_ge0,deg_le2_poly_ge0(will be in MC 2.1/1.18) - lemma
deg_le2_ge0
- definition
- in
classical_sets.v:- lemmas
set_eq_le,set_neq_lt, - new lemma
trivIset1. - lemmas
preimage_mem_true,preimage_mem_false
- lemmas
- in
functions.v:- lemma
sumrfctE
- lemma
- in
set_interval.v:- lemma
set_lte_bigcup
- lemma
- in
topology.v:- lemma
globally0 - new definitions
basis, andsecond_countable. - new lemmas
clopen_countableandcompact_countable_base.
- lemma
- in
ereal.v:- lemmas
compreDr,compreN
- lemmas
- in
constructive_ereal.v:- lemmas
lee_sqr,lte_sqr,lee_sqrE,lte_sqrE,sqre_ge0,EFin_expe,sqreD,sqredD
- lemmas
- in
normedtype.v:- lemma
lipschitz_set0,lipschitz_set1
- lemma
- in
sequences.v:- lemma
eq_eseriesl
- lemma
- in
measure.v:- new lemmas
measurable_subring, andsemiring_sigma_additive. - added factory
Content_SubSigmaAdditive_isMeasure - lemma
measurable_fun_bigcup - definition
measure_dominates, notation`<< - lemma
measure_dominates_trans - defintion
mfrestr - lemmas
measurable_pair1,measurable_pair2
- new lemmas
- in
lebesgue_measure.v:- lemma
measurable_expR
- lemma
- in
lebesgue_integral.v:- lemmas
emeasurable_fun_lt,emeasurable_fun_le,emeasurable_fun_eq,emeasurable_fun_neq - lemma
integral_ae_eq - lemma
integrable_sum - lemmas
integrableP,measurable_int
- lemmas
- in file
kernel.v,- new definitions
kseries,measure_fam_uub,kzero,kdirac,prob_pointed,mset,pset,pprobability,kprobability,kadd,mnormalize,knormalize,kcomp, andmkcomp. - new lemmas
eq_kernel,measurable_fun_kseries,integral_kseries,measure_fam_uubP,eq_sfkernel,kzero_uub,sfinite_kernel,sfinite_kernel_measure,finite_kernel_measure,measurable_prod_subset_xsection_kernel,measurable_fun_xsection_finite_kernel,measurable_fun_xsection_integral,measurable_fun_integral_finite_kernel,measurable_fun_integral_sfinite_kernel,lt0_mset,gt1_mset,kernel_measurable_eq_cst,kernel_measurable_neq_cst,kernel_measurable_fun_eq_cst,measurable_fun_kcomp_finite,mkcomp_sfinite,measurable_fun_mkcomp_sfinite,measurable_fun_preimage_integral,measurable_fun_integral_kernel, andintegral_kcomp. - lemma
measurable_fun_mnormalize
- new definitions
- in
probability.v- definition of
covariance - lemmas
expectation_sum,covarianceE,covarianceC,covariance_fin_num,covariance_cst_l,covariance_cst_r,covarianceZl,covarianceZr,covarianceNl,covarianceNr,covarianceNN,covarianceDl,covarianceDr,covarianceBl,covarianceBr,variance_fin_num,varianceZ,varianceN,varianceD,varianceB,varianceD_cst_l,varianceD_cst_r,varianceB_cst_l,varianceB_cst_r - lemma
covariance_le - lemma
cantelli
- definition of
- in
charge.v:- definition
measure_of_charge - definition
crestr0 - definitions
jordan_neg,jordan_pos - lemmas
jordan_decomp,jordan_pos_dominates,jordan_neg_dominates - lemma
radon_nikodym_finite - definition
Radon_Nikodym, notation'd nu '/d mu - theorems
Radon_Nikodym_integrable,Radon_Nikodym_integral
- definition
- in
lebesgue_measure.vmeasurable_funrM,measurable_funN,measurable_fun_exprn
- in
lebesgue_integral.v:- lemma
xsection_ndseq_closedgeneralized from a measure to a family of measures - locked
integrableand put it in bool rather than Prop
- lemma
- in
probability.vvarianceis now defined based oncovariance
- in
derive.v:Rmult_rev->mulr_revrev_Rmult->rev_mulrRmult_is_linear->mulr_is_linearRmult_linear->mulr_linearRmult_rev_is_linear->mulr_rev_is_linearRmult_rev_linear->mulr_rev_linearRmult_bilinear->mulr_bilinearis_diff_Rmult->is_diff_mulr
- in
measure.v:measurable_fun_id->measurable_idmeasurable_fun_cst->measurable_cstmeasurable_fun_comp->measurable_compmeasurable_funT_comp->measurableT_compmeasurable_fun_fst->measurable_fstmeasurable_fun_snd->measurable_sndmeasurable_fun_swap->measurable_swapmeasurable_fun_pair->measurable_fun_prodisMeasure0-> ``Content_isMeasure`Hahn_ext->measure_extensionHahn_ext_ge0->measure_extension_ge0Hahn_ext_sigma_additive->measure_extension_semi_sigma_additiveHahn_ext_unique->measure_extension_uniqueRingOfSets_from_semiRingOfSets->SemiRingOfSets_isRingOfSetsAlgebraOfSets_from_RingOfSets->RingOfSets_isAlgebraOfSetsMeasurable_from_algebraOfSets->AlgebraOfSets_isMeasurablering_sigma_additive->ring_semi_sigma_additive
- in
lebesgue_measure.vmeasurable_funN->measurable_oppremeasurable_fun_minus->measurable_oppemeasurable_fun_abse->measurable_absemeasurable_EFin->measurable_image_EFinmeasurable_fun_EFin->measurable_EFinmeasurable_fine->measurable_image_finemeasurable_fun_fine->measurable_finemeasurable_fun_normr->measurable_normrmeasurable_fun_exprn->measurable_exprnemeasurable_fun_max->measurable_maxeemeasurable_fun_min->measurable_minemeasurable_fun_max->measurable_maxrmeasurable_fun_er_map->measurable_er_mapemeasurable_fun_funepos->measurable_funeposemeasurable_fun_funeneg->measurable_funenegmeasurable_funrM->measurable_mulrl
- in
lebesgue_integral.v:measurable_fun_indic->measurable_indic
- in
lebesgue_measure.v:- lemma
measurable_fun_sqr(usemeasurable_exprninstead) - lemma
measurable_fun_opp(usemeasurable_opprinstead)
- lemma
- in
normedtype.v:- instance
Proper_dnbhs_realType
- instance
- in
measure.v:- instances
ae_filter_algebraOfSetsType,ae_filter_measurableType,ae_properfilter_measurableType
- instances
- in
lebesgue_measure.v:- lemma
emeasurable_funN(usemeasurableT_comp) instead - lemma
measurable_fun_prod1(usemeasurableT_compinstead) - lemma
measurable_fun_prod2(usemeasurableT_compinstead)
- lemma
- in
lebesgue_integral.v- lemma
emeasurable_funN(was already inlebesgue_measure.v, usemeasurableT_compinstead)
- lemma
- in
mathcomp_extra.v:- lemma
ler_sqrt - lemma
lt_min_lt
- lemma
- in
classical_sets.v:- lemmas
ltn_trivIset,subsetC_trivIset
- lemmas
- in
contructive_ereal.v:- lemmas
ereal_blatticeMixin,ereal_tblatticeMixin - canonicals
ereal_blatticeType,ereal_tblatticeType - lemmas
EFin_min,EFin_max - definition
sqrte - lemmas
sqrte0,sqrte_ge0,lee_sqrt,sqrteM,sqr_sqrte,sqrte_sqr,sqrte_fin_num
- lemmas
- in
ereal.v:- lemmas
compreBr,compre_scale - lemma
le_er_map
- lemmas
- in
set_interval.v:- lemma
onem_factor - lemmas
in1_subset_itv,subset_itvW
- lemma
- in
topology.v,- new definitions
totally_disconnected, andzero_dimensional. - new lemmas
component_closed,zero_dimension_prod,discrete_zero_dimension,zero_dimension_totally_disconnected,totally_disconnected_cvg, andtotally_disconnected_prod. - new definitions
split_sym,gauge,gauge_uniformType_mixin,gauge_topologicalTypeMixin,gauge_filtered,gauge_topologicalType,gauge_uniformType,gauge_pseudoMetric_mixin, andgauge_pseudoMetricType. - new lemmas
iter_split_ent,gauge_ent,gauge_filter,gauge_refl,gauge_inv,gauge_split,gauge_countable_uniformity, anduniform_pseudometric_sup. - new definitions
discrete_ent,discrete_uniformType,discrete_ball,discrete_pseudoMetricType, andpseudoMetric_bool. - new lemmas
finite_compact,discrete_ball_center,compact_cauchy_cvg
- new definitions
- in
normedtype.v:- lemmas
cvg_at_right_filter,cvg_at_left_filter,cvg_at_right_within,cvg_at_left_within
- lemmas
- in
sequences.v:- lemma
seqDUIE
- lemma
- in
derive.v:- lemma
derivable_within_continuous
- lemma
- in
realfun.v:- definition
derivable_oo_continuous_bnd, lemmaderivable_oo_continuous_bnd_within
- definition
- in
exp.v:- lemma
ln_power_pos - definition
powere_pos, notation_ `^ _inereal_scope - lemmas
powere_pos_EFin,powere_posyr,powere_pose0,powere_pose1,powere_posNyrpowere_pos0r,powere_pos1r,powere_posNyr,fine_powere_pos,powere_pos_ge0,powere_pos_gt0,powere_pos_eq0,powere_posM,powere12_sqrt - lemmas
derive_expR,convex_expR - lemmas
power_pos_ge0,power_pos0,power_pos_eq0,power_posM,power_posAC,power12_sqrt,power_pos_inv1,power_pos_inv,power_pos_intmul
- lemma
- in
measure.v:- lemmas
negligibleU,negligibleS - definition
almost_everywhere_notation - instances
ae_filter_ringOfSetsType,ae_filter_algebraOfSetsType,ae_filter_measurableType - instances
ae_properfilter_algebraOfSetsType,ae_properfilter_measurableType
- lemmas
- in
lebesgue_measure.v:- lemma
emeasurable_itv - lemma
measurable_fun_er_map - lemmas
measurable_fun_ln,measurable_fun_power_pos
- lemma
- in
lebesgue_integral.v:- lemma
sfinite_Fubini - instance of
isMeasurableFunfornormr - lemma
finite_measure_integrable_cst - lemma
ae_ge0_le_integral - lemma
ae_eq_refl
- lemma
- new file
convex.v:- mixin
isConvexSpace, structureConvexSpace, notationsconvType,_ <| _ |> _ - lemmas
conv1,second_derivative_convex
- mixin
- new file
charge.v:- mixin
isAdditiveCharge, structureAdditiveCharge, notationsadditive_charge,{additive_charge set T -> \bar R} - mixin
isCharge, structureCharge, notationscharge,{charge set T -> \bar R} - lemmas
charge0,charge_semi_additiveW,charge_semi_additive2E,charge_semi_additive2,chargeU,chargeDI,chargeD,charge_partition - definitions
crestr,cszero,cscale,positive_set,negative_set - lemmas
negative_set_charge_le0,negative_set0,bigcup_negative_set,negative_setU,positive_negative0 - definition
hahn_decomposition - lemmas
hahn_decomposition_lemma,Hahn_decomposition,Hahn_decomposition_uniq
- mixin
- new file
itv.v:- definition
wider_itv - module
Itv:- definitions
map_itv_bound,map_itv - lemmas
le_map_itv_bound,subitv_map_itv - definition
itv_cond - record
def - notation
spec - record
typ - definitions
mk,from,fromP
- definitions
- notations
{itv R & i},{i01 R},%:itv,[itv of _],inum,%:inum - definitions
itv_eqMixin,itv_choiceMixin,itv_porderMixin - canonical
itv_subType,itv_eqType,itv_choiceType,itv_porderType - lemma
itv_top_typ_subproof - canonical
itv_top_typ - lemma
typ_inum_subproof - canonical
typ_inum - notation
unify_itv - lemma
itv_intro - definition
empty_itv - lemmas
itv_bottom,itv_gt0,itv_le0F,itv_lt0,itv_ge0F,itv_ge0,lt0F,le0,gt0F,lt1,ge1F,le1,gt1F - lemma
widen_itv_subproof - definition
widen_itv - lemma
widen_itvE - notation
%:i01 - lemma
zero_inum_subproof - canonical
zero_inum - lemma
one_inum_subproof - canonical
one_inum - definition
opp_itv_bound_subdef - lemmas
opp_itv_ge0_subproof,opp_itv_gt0_subproof,opp_itv_boundr_subproof,opp_itv_le0_subproof,opp_itv_lt0_subproof,opp_itv_boundl_subproof - definition
opp_itv_subdef - lemma
opp_inum_subproof - canonical
opp_inum - definitions
add_itv_boundl_subdef,add_itv_boundr_subdef,add_itv_subdef - lemma
add_inum_subproof - canonical
add_inum - definitions
itv_bound_signl,itv_bound_signr,interval_sign - variant
interval_sign_spec - lemma
interval_signP - definitions
mul_itv_boundl_subdef,mul_itv_boundr_subdef - lemmas
mul_itv_boundl_subproof,mul_itv_boundrC_subproof,mul_itv_boundr_subproof,mul_itv_boundr'_subproof - definition
mul_itv_subdef - lemmas
map_itv_bound_min,map_itv_bound_max,mul_inum_subproof - canonical
mul_inum - lemmas
inum_eq,inum_le,inum_lt
- definition
- new file
probability.v:- definition
random_variable, notation{RV _ >-> _} - lemmas
notin_range_measure,probability_range - definition
distribution, instance ofisProbability - lemma
probability_distribution,integral_distribution - definition
expectation, notation'E_P[X] - lemmas
expectation_cst,expectation_indic,integrable_expectation,expectationM,expectation_ge0,expectation_le,expectationD,expectationB - definition
variance,'V_P[X] - lemma
varianceE - lemmas
variance_ge0,variance_cst - lemmas
markov,chebyshev, - mixin
MeasurableFun_isDiscrete, structurediscreteMeasurableFun, notation{dmfun aT >-> T} - definition
discrete_random_variable, notation{dRV _ >-> _} - definitions
dRV_dom_enum,dRV_dom,dRV_enum,enum_prob - lemmas
distribution_dRV_enum,distribution_dRV,sum_enum_prob,dRV_expectation - definion
pmf, lemmaexpectation_pmf
- definition
- in
mathcomp_extra.v- lemmas
eq_bigmax,eq_bigminchanged to respectPin the returned type.
- lemmas
- in
constructive_ereal.v:maxEFinchanged tofine_maxminEFinchanged tofine_min
- in
exp.v:- generalize
exp_funand rename topower_pos exp_fun_gt0has now a condition and is renamed topower_pos_gt0- remove condition of
exp_funr0and rename topower_posr0 - weaken condition of
exp_funr1and rename topower_posr1 - weaken condition of
exp_fun_invand rename topower_pos_inv exp_fun1->power_pos1- rename
ler_exp_funtoler_power_pos exp_funD->power_posD- weaken condition of
exp_fun_mulrnand rename topower_pos_mulrn - the notation
`^has now scopereal_scope - weaken condition of
riemannR_gt0anddvg_riemannR
- generalize
- in
measure.v:- generalize
negligibletosemiRingOfSetsType - definition
almost_everywhere
- generalize
- in
functions.v:IsFun->isFun
- in
set_interval.v:conv->line_pathconv_id->line_path_idndconv->ndline_pathconvEl->line_pathElconvEr->line_pathErconv10->line_path10conv0->line_path0conv1->line_path1conv_sym->line_path_symconv_flat->line_path_flatleW_conv->leW_line_pathndconvE->ndline_pathEconvK->line_pathKconv_inj->line_path_injconv_bij->line_path_bijle_conv->le_line_pathlt_conv->lt_line_pathconv_itv_bij->line_path_itv_bijmem_conv_itv->mem_line_path_itvmem_conv_itvcc->mem_line_path_itvccrange_conv->range_line_path
- in
topology.v:Topological.ax1->Topological.nbhs_pfilterTopological.ax2->Topological.nbhsETopological.ax3->Topological.openEentourage_filter->entourage_pfilterUniform.ax1->Uniform.entourage_filterUniform.ax2->Uniform.entourage_reflUniform.ax3->Uniform.entourage_invUniform.ax4->Uniform.entourage_split_exUniform.ax5->Uniform.nbhsEPseudoMetric.ax1->PseudoMetric.ball_centerPseudoMetric.ax2->PseudoMetric.ball_symPseudoMetric.ax3->PseudoMetric.ball_trianglePseudoMetric.ax4->PseudoMetric.entourageE
- in
measure.v:emeasurable_fun_bool->measurable_fun_bool
- in
lebesgue_measure.v:punct_eitv_bnd_pinfty->punct_eitv_bndypunct_eitv_ninfty_bnd->punct_eitv_Nybndeset1_pinfty->eset1yeset1_ninfty->eset1NyErealGenOInfty.measurable_set1_ninfty->ErealGenOInfty.measurable_set1NyErealGenOInfty.measurable_set1_pinfty->ErealGenOInfty.measurable_set1yErealGenCInfty.measurable_set1_ninfty->ErealGenCInfty.measurable_set1NyErealGenCInfty.measurable_set1_pinfty->ErealGenCInfty.measurable_set1y
- in
realsum.v:psumB,interchange_sup,interchange_psum
- in
distr.v:dlet_lim,dlim_let,exp_split,exp_dlet,dlet_dlet,dmargin_dlet,dlet_dmargin,dfst_dswap,dsnd_dswap,dsndE,pr_dlet,exp_split,exp_dlet
- in
measure.v:- lemma
measurable_fun_ext
- lemma
- in
lebesgue_measure.v:- lemmas
emeasurable_itv_bnd_pinfty,emeasurable_itv_ninfty_bnd(useemeasurable_itvinstead)
- lemmas
- in
lebesgue_integral.v:- lemma
ae_eq_mul
- lemma
- in
mathcomp_extra.v:- lemma
add_onemK - function
swap
- lemma
- in file
boolp.v,- new lemma
forallp_asboolPn2.
- new lemma
- in
classical_sets.v:- canonical
unit_pointedType - lemmas
setT0,set_unit,set_bool - lemmas
xsection_preimage_snd,ysection_preimage_fst - lemma
trivIset_mkcond - lemmas
xsectionI,ysectionI - lemma
coverE - new lemma
preimage_range.
- canonical
- in
constructive_ereal.v:- lemmas
EFin_sum_fine,sumeN - lemmas
adde_defDr,adde_def_sum,fin_num_sumeN - lemma
fin_num_adde_defr,adde_defN - lemma
oppe_inj - lemmas
expeS,fin_numX - lemmas
adde_def_doppeD,adde_def_doppeB - lemma
fin_num_sume_distrr
- lemmas
- in
functions.v:- lemma
countable_bijP - lemma
patchE
- lemma
- in
numfun.v:- lemmas
xsection_indic,ysection_indic
- lemmas
- in file
topology.v,- new definition
perfect_set. - new lemmas
perfectTP,perfect_prod, andperfect_diagonal. - new definitions
countable_uniformity,countable_uniformityT,sup_pseudoMetric_mixin,sup_pseudoMetricType, andproduct_pseudoMetricType. - new lemmas
countable_uniformityP,countable_sup_ent, andcountable_uniformity_metric. - new definitions
quotient_topology, andquotient_open. - new lemmas
pi_continuous,quotient_continuous, andrepr_comp_continuous. - new definitions
hausdorff_accessible,separate_points_from_closed, andjoin_product. - new lemmas
weak_sep_cvg,weak_sep_nbhsE,weak_sep_openE,join_product_continuous,join_product_open,join_product_inj, andjoin_product_weak. - new definition
clopen. - new lemmas
clopenI,clopenU,clopenC,clopen0,clopenT,clopen_comp,connected_closure,clopen_separatedP, andclopen_connectedP. - new lemmas
powerset_filter_fromPandcompact_cluster_set1.
- new definition
- in
exp.v:- lemma
expR_ge0
- lemma
- in
measure.v:- mixin
isProbability, structureProbability, typeprobability - lemma
probability_le1 - definition
discrete_measurable_unit - structures
sigma_finite_additive_measureandsigma_finite_measure - lemmas
measurable_curry,measurable_fun_fst,measurable_fun_snd,measurable_fun_swap,measurable_fun_pair,measurable_fun_if_pair - lemmas
dirac0,diracT - lemma
fin_num_fun_sigma_finite - structure
FiniteMeasure, notation{finite_measure set _ -> \bar _} - definition
sfinite_measure_def - mixin
Measure_isSFinite_subdef, structureSFiniteMeasure, notation{sfinite_measure set _ -> \bar _} - mixin
SigmaFinite_isFinitewith fieldfin_num_measure, structureFiniteMeasure, notation{finite_measure set _ -> \bar _} - lemmas
sfinite_measure_sigma_finite,sfinite_mzero,sigma_finite_mzero - factory
Measure_isFinite,Measure_isSFinite - defintion
sfinite_measure_seq, lemmasfinite_measure_seqP - mixin
FiniteMeasure_isSubProbability, structureSubProbability, notationsubprobability - factory
Measure_isSubProbability - factory
FiniteMeasure_isSubProbability - factory
Measure_isSigmaFinite - lemmas
fin_num_fun_lty,lty_fin_num_fun - definition
fin_num_fun - structure
FinNumFun
- mixin
- in
lebesgue_measure.v:- lemma
measurable_fun_opp
- lemma
- in
lebesgue_integral.v- lemmas
integral0_eq,fubini_tonelli - product measures now take
{measure _ -> _}arguments and their theory quantifies over a{sigma_finite_measure _ -> _}. - notations
\x,\x^forproduct_measure1andproduct_measure2
- lemmas
- in
fsbigop.v:- implicits of
eq_fsbigr
- implicits of
- in file
topology.v,- lemma
compact_near_coveringP
- lemma
- in
functions.v:- notation
mem_fun_
- notation
- move from
lebesgue_integral.vtoclassical_sets.v- lemmas
trivIset_preimage1,trivIset_preimage1_in
- lemmas
- move from
lebesgue_integral.vtonumfun.v- lemmas
fimfunE,fimfunEord, factoryFiniteDecomp - lemmas
fimfun_mulr_closed - canonicals
fimfun_mul,fimfun_ring,fimfun_ringType - defintion
fimfun_ringMixin - lemmas
fimfunM,fimfun1,fimfun_prod,fimfunX,indic_fimfun_subproof. - definitions
indic_fimfun,scale_fimfun,fimfun_comRingMixin - canonical
fimfun_comRingType - lemma
max_fimfun_subproof - mixin
IsNonNegFun, structureNonNegFun, notation{nnfun _ >-> _}
- lemmas
- in
measure.v:- order of arguments of
isContent,Content,measure0,isMeasure0,Measure,isSigmaFinite,SigmaFiniteContent,SigmaFiniteMeasure
- order of arguments of
- in
measurable.v:measurable_fun_comp->measurable_funT_comp
- in
numfun.v:IsNonNegFun->isNonNegFun
- in
lebesgue_integral.v:IsMeasurableFunP->isMeasurableFun
- in
measure.v:{additive_measure _ -> _}->{content _ -> _}isAdditiveMeasure->isContentAdditiveMeasure->Contentadditive_measure->contentadditive_measure_snum_subproof->content_snum_subproofadditive_measure_snum->content_snumSigmaFiniteAdditiveMeasure->SigmaFiniteContentsigma_finite_additive_measure->sigma_finite_content{sigma_finite_additive_measure _ -> _}->{sigma_finite_content _ -> _}
- in
constructive_ereal.v:fin_num_adde_def->fin_num_adde_defloppeD->fin_num_oppeDoppeB->fin_num_oppeBdoppeD->fin_num_doppeDdoppeB->fin_num_doppeB
- in
topology.v:finSubCover->finite_subset_cover
- in
sequences.v:eq_eseries->eq_eseriesr
- in
esum.v:summable_nneseries_esum->summable_eseries_esumsummable_nneseries->summable_eseries
- in
classical_sets.v:xsection_preimage_snd,ysection_preimage_fst
- in
constructive_ereal.v:oppeD,oppeB
- in
esum.v:- lemma
esum_esum
- lemma
- in
measure.v- lemma
measurable_fun_comp - lemma
measure_bigcupgeneralized, - lemma
eq_measure sigma_finitegeneralized fromnumFieldTypetonumDomainTypefin_num_fun_sigma_finitegeneralized frommeasurableTypetoalgebraOfSetsType
- lemma
- in
lebesgue_integral.v:- lemma
measurable_sfunP - lemma
integrable_abse
- lemma
- in
esum.v:- lemma
fsbig_esum
- lemma
- OPAM package
coq-mathcomp-classicalcontainingboolp.v - file
all_classical.v - file
classical/set_interval.v - in
mathcomp_extra.v- lemma
lez_abs2n - lemmas
pred_oappEandpred_oapp_set(fromclassical_sets.v) - lemma
sumr_le0 - new definition
inv_fun. - new lemmas
ler_ltP, andreal_ltr_distlC. - new definitions
proj, anddfwith. - new lemmas
dfwithin,dfwithout, anddfwithP. - new lemma
projK - generalize lemmas
bigmax_le,bigmax_lt,lt_bigminandle_bigminfromfinTypetoType - new definition
oACto turn an AC operatorT -> T -> T, into a monoid com_lawoption T -> option T -> option T. - new generic lemmas
opACE,some_big_AC,big_ACE,big_undup_AC,perm_big_AC,sub_big,sub_big_seq,sub_big_seq_cond,uniq_sub_big,uniq_sub_big_cond,sub_big_idem,sub_big_idem_cond,sub_in_big,le_big_ord,subset_big,subset_big_cond,le_big_nat_cond,le_big_nat, andle_big_ord_cond, - specialization to
bigmax:sub_bigmax,sub_bigmax_seq,sub_bigmax_cond,sub_in_bigmax,le_bigmax_nat,le_bigmax_nat_cond,le_bigmax_ord,le_bigmax_ord_cond,subset_bigmax, andsubset_bigmax_cond. - specialization to
bigmin,sub_bigmax,sub_bigmin_seq,sub_bigmin_cond,sub_in_bigmin,le_bigmin_nat,le_bigmin_nat_cond,le_bigmin_ord,le_bigmin_ord_cond,subset_bigmin, andsubset_bigmin_cond.
- lemma
- in
classical_sets.v- lemmas
IIDn,IISl - lemmas
set_compose_subset,compose_diag - notation
\;for the composition of relations - notations
\bigcup_(i < n) Fand\bigcap_(i < n) F - new lemmas
eq_image_id,subKimage,subimageK, andeq_imageK. - lemma
bigsetU_sup - lemma
image2_subset
- lemmas
- in
constructive_ereal.v- lemmas
fine_le,fine_lt,fine_abse,abse_fin_num - lemmas
gte_addl,gte_addr - lemmas
gte_daddl,gte_daddr - lemma
lte_spadder,lte_spaddre - lemma
lte_spdadder - lemma
sum_fine - lemmas
lteN10,leeN10 - lemmas
le0_fin_numE - lemmas
fine_lt0,fine_le0 - lemma
fine_lt0E - multi-rules
lteey,lteNye - new lemmas
real_ltry,real_ltNyr,real_leey,real_leNye,fin_real,addNye,addeNy,gt0_muley,lt0_muley,gt0_muleNy, andlt0_muleNy. - new lemmas
daddNye, anddaddeNy. - lemma
lt0e - canonicals
maxe_monoid,maxe_comoid,mine_monoid,mine_comoid
- lemmas
- in
functions.v,- new lemmas
inv_oppr,preimageEoinv,preimageEinv, andinv_funK.
- new lemmas
- in
cardinality.v- lemmas
eq_card1,card_set1,card_eqSP,countable_n_subset,countable_finite_subset,eq_card_fset_subset,fset_subset_countable
- lemmas
- in
fsbigop.v:- lemmas
fsumr_ge0,fsumr_le0,fsumr_gt0,fsumr_lt0,pfsumr_eq0,pair_fsbig,exchange_fsbig - lemma
fsbig_setU_set1
- lemmas
- in
ereal.v:- notation
\sum_(_ \in _) _(fromfsbigop.v) - lemmas
fsume_ge0,fsume_le0,fsume_gt0,fsume_lt0,pfsume_eq0,lee_fsum_nneg_subset,lee_fsum,ge0_mule_fsumr,ge0_mule_fsuml(fromfsbigop.v) - lemmas
finite_supportNe,dual_fsumeE,dfsume_ge0,dfsume_le0,dfsume_gt0,dfsume_lt0,pdfsume_eq0,le0_mule_dfsumr,le0_mule_dfsuml - lemma
fsumEFin - new lemmas
ereal_nbhs_pinfty_gt,ereal_nbhs_ninfty_lt,ereal_nbhs_pinfty_real, andereal_nbhs_ninfty_real.
- notation
- in
classical/set_interval.v:- definitions
neitv,set_itv_infty_set0,set_itvE,disjoint_itv,conv,factor,ndconv(fromset_interval.v) - lemmas
neitv_lt_bnd,set_itvP,subset_itvP,set_itvoo,set_itv_cc,set_itvco,set_itvoc,set_itv1,set_itvoo0,set_itvoc0,set_itvco0,set_itv_infty_infty,set_itv_o_infty,set_itv_c_infty,set_itv_infty_o,set_itv_infty_c,set_itv_pinfty_bnd,set_itv_bnd_ninfty,setUitv1,setU1itv,set_itvI,neitvE,neitvP,setitv0,has_lbound_itv,has_ubound_itv,hasNlbound,hasNubound,opp_itv_bnd_infty,opp_itv_infty_bnd,opp_itv_bnd_bnd,opp_itvoo,setCitvl,setCitvr,set_itv_splitI,setCitv,set_itv_splitD,mem_1B_itvcc,conv_id,convEl,convEr,conv10,conv0,conv1,conv_sym,conv_flat,leW_conv,leW_factor,factor_flat,factorl,ndconvE,factorr,factorK,convK,conv_inj,factor_inj,conv_bij,factor_bij,le_conv,le_factor,lt_conv,lt_factor,conv_itv_bij,factor_itv_bij,mem_conv_itv,mem_conv_itvcc,range_conv,range_factor,mem_factor_itv,set_itv_ge,trivIset_set_itv_nth,disjoint_itvxx,lt_disjoint,disjoint_neitv,neitv_bnd1,neitv_bnd2(fromset_interval.v) - lemmas
setNK,lb_ubN,ub_lbN,mem_NE,nonemptyN,opp_set_eq0,has_lb_ubN,has_ubPn,has_lbPn(fromreals.v)
- definitions
- in
topology.v:- lemmas
continuous_subspaceT,subspaceT_continuous - lemma
weak_subspace_open - lemma
weak_ent_filter,weak_ent_refl,weak_ent_inv,weak_ent_split,weak_ent_nbhs - definition
map_pair,weak_ent,weak_uniform_mixin,weak_uniformType - lemma
sup_ent_filter,sup_ent_refl,sup_ent_inv,sup_ent_split,sup_ent_nbhs - definition
sup_ent,sup_uniform_mixin,sup_uniformType - definition
product_uniformType - lemma
uniform_entourage - definition
weak_ball,weak_pseudoMetricType - lemma
weak_ballE - lemma
finI_from_countable - lemmas
entourage_invI,split_ent_subset - definition
countable_uniform_pseudoMetricType_mixin - lemmas
closed_bigsetU,accessible_finite_set_closed - new lemmas
eq_cvg,eq_is_cvg,eq_near,cvg_toP,cvgNpoint,filter_imply,nbhs_filter,near_fun,cvgnyPgt,cvgnyPgty,cvgnyPgey,fcvg_ballP,fcvg_ball, andfcvg_ball2P. - new lemmas
dfwith_continuous, andproj_open.
- lemmas
- in
topology.v, addednear doandnear=> x dotactic notations to perform some tactics under a\forall x \near F, ...quantification. - in
reals.v:- lemma
floor0
- lemma
- in
normedtype.v,- lemmas
closed_ballR_compactandlocally_compactR - new lemmas
nbhsNimage,nbhs_pinfty_real,nbhs_ninfty_real,pinfty_ex_ge,cvgryPger,cvgryPgtr,cvgrNyPler,cvgrNyPltr,cvgry_ger,cvgry_gtr,cvgrNy_ler,cvgrNy_ltr,cvgNry,cvgNrNy,cvgry_ge,cvgry_gt,cvgrNy_le,cvgrNy_lt,cvgeyPger,cvgeyPgtr,cvgeyPgty,cvgeyPgey,cvgeNyPler,cvgeNyPltr,cvgeNyPltNy,cvgeNyPleNy,cvgey_ger,cvgey_gtr,cvgeNy_ler,cvgeNy_ltr,cvgNey,cvgNeNy,cvgerNyP,cvgeyPge,cvgeyPgt,cvgeNyPle,cvgeNyPlt,cvgey_ge,cvgey_gt,cvgeNy_le,cvgeNy_lt,cvgenyP,normfZV,fcvgrPdist_lt,cvgrPdist_lt,cvgrPdistC_lt,cvgr_dist_lt,cvgr_distC_lt,cvgr_dist_le,cvgr_distC_le,nbhs_norm0P,cvgr0Pnorm_lt,cvgr0_norm_lt,cvgr0_norm_le,nbhsDl,nbhsDr,nbhs0P,nbhs_right0P,nbhs_left0P,nbhs_right_gt,nbhs_left_lt,nbhs_right_neq,nbhs_left_neq,nbhs_right_ge,nbhs_left_le,nbhs_right_lt,nbhs_right_le,nbhs_left_gt,nbhs_left_ge,nbhsr0P,cvgrPdist_le,cvgrPdist_ltp,cvgrPdist_lep,cvgrPdistC_le,cvgrPdistC_ltp,cvgrPdistC_lep,cvgr0Pnorm_le,cvgr0Pnorm_ltp,cvgr0Pnorm_lep,cvgr_norm_lt,cvgr_norm_le,cvgr_norm_gt,cvgr_norm_ge,cvgr_neq0,real_cvgr_lt,real_cvgr_le,real_cvgr_gt,real_cvgr_ge,cvgr_lt,cvgr_gt,cvgr_norm_lty,cvgr_norm_ley,cvgr_norm_gtNy,cvgr_norm_geNy,fcvgr2dist_ltP,cvgr2dist_ltP,cvgr2dist_lt,cvgNP,norm_cvg0P,cvgVP,is_cvgVE,cvgr_to_ge,cvgr_to_le,nbhs_EFin,nbhs_ereal_pinfty,nbhs_ereal_ninfty,fine_fcvg,fcvg_is_fine,fine_cvg,cvg_is_fine,cvg_EFin,neq0_fine_cvgP,cvgeNP,is_cvgeNE,cvge_to_ge,cvge_to_le,is_cvgeM,limeM,cvge_ge,cvge_le,lim_nnesum,ltr0_cvgV0,cvgrVNy,ler_cvg_to,gee_cvgy,lee_cvgNy,squeeze_fin, andlee_cvg_to.
- lemmas
- in
normedtype.v, added notations^'+,^'-,+oo_R,-oo_R - in
sequences.v,- lemma
invr_cvg0andinvr_cvg_pinfty - lemma
cvgPninfty_lt,cvgPpinfty_near,cvgPninfty_near,cvgPpinfty_lt_nearandcvgPninfty_lt_near - new lemma
nneseries_pinfty. - lemmas
is_cvg_ereal_npos_natsum_cond,lee_npeseries,is_cvg_npeseries_cond,is_cvg_npeseries,npeseries_le0,is_cvg_ereal_npos_natsum - lemma
nnseries_is_cvg
- lemma
- in
measure.v:- definition
discrete_measurable_boolwith an instance of measurable type - lemmas
measurable_fun_if,measurable_fun_ifT - lemma
measurable_fun_bool
- definition
- in
lebesgue_measure.v:- definition
ErealGenInftyO.Rand lemmaErealGenInftyO.measurableE - lemma
sub1set
- definition
- in
lebesgue_integral.v:- lemma
integral_cstNy - lemma
ae_eq0 - lemma
integral_cst - lemma
le_integral_comp_abse - lemmas
integral_fune_lt_pinfty,integral_fune_fin_num - lemmas
emeasurable_fun_fsum,ge0_integral_fsum
- lemma
- in
constructive_ereal.v:- lemmas
lee_paddl,lte_paddl,lee_paddr,lte_paddr,lte_spaddr,lee_pdaddl,lte_pdaddl,lee_pdaddr,lte_pdaddr,lte_spdaddrgeneralized torealDomainType - generalize
lte_addl,lte_addr,gte_subl,gte_subr,lte_daddl,lte_daddr,gte_dsubl,gte_dsubr
- lemmas
- in
topology.v- definition
fct_restrictedUniformTypechanged to useweak_uniformType - definition
family_cvg_topologicalTypechanged to usesup_uniformType - lemmas
continuous_subspace0,continuous_subspace1
- definition
- in
realfun.v:- Instance for
GRing.oppover real intervals - lemmas
itv_continuous_inj_le,itv_continuous_inj_ge,itv_continuous_inj_mono,segment_continuous_inj_le,segment_continuous_inj_ge,segment_can_le,segment_can_ge,segment_can_mono,segment_continuous_surjective,segment_continuous_le_surjective,segment_continuous_ge_surjective,continuous_inj_image_segment,continuous_inj_image_segmentP,segment_continuous_can_sym,segment_continuous_le_can_sym,segment_continuous_ge_can_sym,segment_inc_surj_continuous,segment_dec_surj_continuous,segment_mono_surj_continuous,segment_can_le_continuous,segment_can_ge_continuous,segment_can_continuousall have "{in I, continuous f}" replaced by "{within I, continuous f}"
- Instance for
- in
sequence.v:nneseries_pinftygeneralized toeseries_pinfty
- in
measure.v:covered_by_countablegeneralized frompointedTypetochoiceType
- in
lebesgue_measure.v:- definition
fimfunEnow uses fsbig - generalize and rename
eitv_c_inftytoeitv_bnd_inftyandeitv_infty_ctoeitv_infty_bnd - generalize
ErealGenOInfty.G,ErealGenCInfty.G,ErealGenInftyO.G
- definition
- in
lebesgue_integral.v:- implicits of
ae_eq_integral
- implicits of
- moved from
mathcomp_extra.vtoclassical_sets.v:pred_oappE, andpred_oapp_set. - moved from
normedtype.vtomathcomp_extra.v:itvxx,itvxxP,subset_itv_oo_cc, andbound_side. - moved from
sequences.vtonormedtype.v:ler_lim. sub_dominatedlandsub_dominatedrgeneralized fromnumFieldTypetonumDomainType.abse_fin_numchanged from an equivalence to an equality.lee_opp2andlte_opp2generalized fromrealDomainTypetonumDomainType.cvgN,cvg_norm,is_cvg_normgeneralized fromnormedModType/topologicalTypetopseudoMetricNormedZmodType/TypecvgV,is_cvgV,cvgM,is_cvgM,is_cvgMr,is_cvgMl,is_cvgMrE,is_cvgMlE,limV,cvg_abse,is_cvg_absegeneralized fromTopologicalTypetoTypelim_normgeneralized fromnormedModType/TopoligicalTypetopseudoMetricNormedZmodType/Type- updated
cvg_ballP,cvg_ball2P,cvg_ball, andcvgi_ballPto match af @ Finstead of just anF. The old lemmas are still available with prefixf. - generalized
lee_limto any proper filter and moved fromsequences.vtonormedtype.v. - generalized
ereal_nbhs_pinfty_geandereal_nbhs_ninfty_le. - renamed
nbhsNtonbhsNimageandnbhsNis now replaced bynbhs (- x) = -%R @ x - fixed the statements of
nbhs_normPwhich used to be an accidental alias ofnbhs_ballPtogether withnbhs_normE,nbhs_le_nbhs_norm,nbhs_norm_le_nbhs,near_nbhs_normandnbhs_norm_ballwhich were not aboutnbhs_ball_ ball_normbut should have been. EFin_limgeneralized fromrealTypetorealFieldType
- file
theories/mathcomp_extra.vmoved toclassical/mathcomp_extra.v - file
theories/boolp.v->classical/boolp.v - file
theories/classical_sets.v->classical/classical_sets.v - file
theories/functions.v->classical/functions.v - file
theories/cardinality.v->classical/cardinality.v - file
theories/fsbigop.v->classical/fsbigop.v - file
theories/set_interval.v->theories/real_interval.v - in
mathcomp_extra.v:homo_le_bigmax->le_bigmax2
- in
constructive_ereal.v:lte_spdaddr->lte_spdaddreesum_ninftyP->esum_eqNyPesum_ninfty->esum_eqNyesum_pinftyP->esum_eqyPesum_pinfty->esum_eqydesum_pinftyP->desum_eqyPdesum_pinfty->desum_eqydesum_ninftyP->desum_eqNyPdesum_ninfty->desum_eqNyeq_pinftyP->eqyPltey->ltryltNye->ltNyr
- in
topology.v:- renamed
continuous_subspaceTtocontinuous_in_subspaceT pasting->withinU_continuouscvg_map_lim->cvg_limcvgi_map_lim->cvgi_limapp_cvg_locally->cvg_ballprod_topo_apply_continuous->proj_continuous
- renamed
- in
normedtype.v,normmZ->normrZnorm_cvgi_map_lim->norm_cvgi_limnbhs_image_ERFin->nbhs_image_EFin
- moved from
sequences.vtonormedtype.v:squeeze->squeeze_cvgr
- in
sequences.v:nneseries0->eseries0nneseries_pred0->eseries_pred0eq_nneseries->eq_eseriesnneseries_mkcond->eseries_mkcondseqDUE->seqDU_seqDelim_sup->lim_esupelim_inf->lim_einfelim_inf_shift->lim_einf_shiftelim_sup_le_cvg->lim_esup_le_cvgelim_infN->lim_einfNelim_supN->lim_esupNelim_inf_sup->lim_einf_supcvg_ninfty_elim_inf_sup->cvgNy_lim_einf_supcvg_ninfty_einfs->cvgNy_einfscvg_ninfty_esups->cvgNy_esupscvg_pinfty_einfs->cvgy_einfscvg_pinfty_esups->cvgy_esupscvg_elim_inf_sup->cvg_lim_einf_supis_cvg_elim_infE->is_cvg_lim_einfEis_cvg_elim_supE->is_cvg_lim_esupE
- in
measure.v,caratheodory_lim_lee->caratheodory_lime_le
- in
lebesgue_measure.v,measurable_fun_elim_sup->measurable_fun_lim_esup
- moved from
lebesgue_measure.vtoreal_interval.v:itv_cpinfty_pinfty->itv_cyyitv_opinfty_pinfty->itv_oyyitv_cninfty_pinfty->itv_cNyyitv_oninfty_pinfty->itv_oNyy
- in
lebesgue_integral.v:integral_cst_pinfty->integral_cstysintegral_cst->sintegral_EFin_cstintegral_cst->integral_cstr
- in
constructive_ereal.v,daddooe->daddyedaddeoo->daddeyltey,ltNye
- moved from
normedtype.vtomathcomp_extra.v:ler0_addgt0P->ler_gtP
- in
normedtype.v,cvg_gt_ge->cvgr_gecvg_lt_le->cvgr_lecvg_dist0->norm_cvg0ereal_cvgN->cvgeNereal_is_cvgN->is_cvgeNereal_cvgrM->cvgeMlereal_is_cvgrM->is_cvgeMlereal_cvgMr->cvgeMrereal_is_cvgMr->is_cvgeMrereal_limrM->limeMlereal_limMr->limeMrereal_limN->limeNlinear_continuous0->continuous_linear_boundedlinear_bounded0->bounded_linear_continuous
- moved from
derive.vtonormedtype.v:le0r_cvg_map->limr_geler0_cvg_map->limr_le
- moved from
sequences.vtonormedtype.v:ereal_cvgM->cvgeMcvgPpinfty->cvgryPgecvgPninfty->cvgrNyPleger_cvg_pinfty->ger_cvgyler_cvg_ninfty->ler_cvgNycvgPpinfty_lt->cvgryPgtcvgPninfty_lt->cvgrNyPltcvgPpinfty_near->cvgryPgeycvgPninfty_near->cvgrNyPleNycvgPpinfty_lt_near->cvgryPgtycvgPninfty_lt_near->cvgrNyPltNyinvr_cvg0->gtr0_cvgV0invr_cvg_pinfty->cvgrVynat_dvg_real->cvgrnyPereal_cvg_abs0->cvg_abse0Pereal_lim_ge->lime_geereal_lim_le->lime_ledvg_ereal_cvg->cvgeryPereal_cvg_real->fine_cvgPereal_squeeze->squeeze_cvgeereal_cvgD->cvgeDereal_cvgB->cvgeBereal_is_cvgD->is_cvgeDereal_cvg_sub0->cvge_sub0ereal_limD->limeDereal_lim_sum->cvg_nnesum
- moved from
sequences.vtotopology.v:nat_cvgPpinfty->cvgnyPge
- in
topology.vprod_topo_apply->proj
- in
lebesgue_integral.v:integral_sum->integral_nneseries
- in
constructive_ereal.v:- lemma
lte_spaddr, renamedlte_spaddre
- lemma
- in
topology.v, deprecatedcvg_ballPpos(use a combination ofcvg_ballPandposnumP),cvg_dist(usecvgr_dist_ltor a variation instead)
- in
normedtype.v, deprecatedcvg_distP(usecvgrPdist_ltor a variation instead),cvg_dist(usecvg_dist_ltor a variation instead),cvg_distW(usecvgrPdist_leor a variation instead),cvg_bounded_real(usecvgr_norm_ltyor a variation instead),continuous_cvg_dist(simply use the fact that(x --> l) -> (x = l)),cvg_dist2P(usecvgr2dist_ltPor a variant instead),cvg_dist2(usecvgr2dist_ltor a variant instead),
- in
derive.v, deprecatedler_cvg_map(subsumed byler_lim),
- in
sequences.v, deprecatedcvgNpinfty(usecvgNryinstead),cvgNninfty(usecvgNrNyinstead),ereal_cvg_ge0(usecvge_geinstead),ereal_cvgPpinfty(usecvgeyPgeor a variant instead),ereal_cvgPninfty(usecvgeNyPleor a variant instead),ereal_cvgD_pinfty_fin(usecvgeDinstead),ereal_cvgD_ninfty_fin(usecvgeDinstead),ereal_cvgD_pinfty_pinfty(usecvgeDinstead),ereal_cvgD_ninfty_ninfty(usecvgeDinstead),ereal_cvgM_gt0_pinfty(usecvgeMinstead),ereal_cvgM_lt0_pinfty(usecvgeMinstead),ereal_cvgM_gt0_ninfty(usecvgeMinstead),ereal_cvgM_lt0_ninfty(usecvgeMinstead),
- in
classical_sets.v:- lemmas
pred_oappEandpred_oapp_set(moved tomathcomp_extra.v)
- lemmas
- in
fsbigop.v:- notation
\sum_(_ \in _) _(moved toereal.v) - lemma
lee_fsum_nneg_subset,lee_fsum,ge0_mule_fsumr,ge0_mule_fsuml,fsume_ge0,fsume_le0,fsume_gt0,fsume_lt0,pfsume_eq0(moved toereal.v) - lemma
pair_fsum(subsumed bypair_fsbig) - lemma
exchange_fsum(subsumed byexchange_fsbig)
- notation
- in
reals.v:- lemmas
setNK,lb_ubN,ub_lbN,mem_NE,nonemptyN,opp_set_eq0,has_lb_ubN,has_ubPn,has_lbPn(moved toclassical/set_interval.v)
- lemmas
- in
set_interval.v:- definitions
neitv,set_itv_infty_set0,set_itvE,disjoint_itv,conv,factor,ndconv(moved toclassical/set_interval.v) - lemmas
neitv_lt_bnd,set_itvP,subset_itvP,set_itvoo,set_itv_cc,set_itvco,set_itvoc,set_itv1,set_itvoo0,set_itvoc0,set_itvco0,set_itv_infty_infty,set_itv_o_infty,set_itv_c_infty,set_itv_infty_o,set_itv_infty_c,set_itv_pinfty_bnd,set_itv_bnd_ninfty,setUitv1,setU1itv,set_itvI,neitvE,neitvP,setitv0,has_lbound_itv,has_ubound_itv,hasNlbound,hasNubound,opp_itv_bnd_infty,opp_itv_infty_bnd,opp_itv_bnd_bnd,opp_itvoo,setCitvl,setCitvr,set_itv_splitI,setCitv,set_itv_splitD,mem_1B_itvcc,conv_id,convEl,convEr,conv10,conv0,conv1,conv_sym,conv_flat,leW_conv,leW_factor,factor_flat,factorl,ndconvE,factorr,factorK,convK,conv_inj,factor_inj,conv_bij,factor_bij,le_conv,le_factor,lt_conv,lt_factor,conv_itv_bij,factor_itv_bij,mem_conv_itv,mem_conv_itvcc,range_conv,range_factor,mem_factor_itv,set_itv_ge,trivIset_set_itv_nth,disjoint_itvxx,lt_disjoint,disjoint_neitv,neitv_bnd1,neitv_bnd2(moved toclassical/set_interval.v)
- definitions
- in
topology.v- lemmas
prod_topo_applyE
- lemmas
- in
mathcomp_extra.v:- defintion
onemand notation`1- - lemmas
onem0,onem1,onemK,onem_gt0,onem_ge0,onem_le1,onem_lt1,onemX_ge0,onemX_lt1,onemD,onemMr,onemM - lemmas
natr1,nat1r
- defintion
- in
classical_sets.v:- lemmas
subset_fst_set,subset_snd_set,fst_set_fst,snd_set_snd,fset_setM,snd_setM,fst_setMR - lemmas
xsection_snd_set,ysection_fst_set
- lemmas
- in
constructive_ereal.v:- lemmas
ltNye_eq,sube_lt0,subre_lt0,suber_lt0,sube_ge0 - lemmas
dsubre_gt0,dsuber_gt0,dsube_gt0,dsube_le0
- lemmas
- in
signed.v:- lemmas
onem_PosNum,onemX_NngNum
- lemmas
- in
fsbigop.v:- lemmas
lee_fsum_nneg_subset,lee_fsum
- lemmas
- in
topology.v:- lemma
near_inftyS - lemma
continuous_closedP,closedU,pasting - lemma
continuous_inP - lemmas
open_setIS,open_setSI,closed_setIS,closed_setSI
- lemma
- in
normedtype.v:- definitions
contractionandis_contraction - lemma
contraction_fixpoint_unique
- definitions
- in
sequences.v:- lemmas
contraction_dist,contraction_cvg,contraction_cvg_fixed,banach_fixed_point,contraction_unique
- lemmas
- in
derive.v:- lemma
diff_derivable
- lemma
- in
measure.v:- lemma
measurable_funTS
- lemma
- in
lebesgue_measure.v:- lemma
measurable_fun_fine - lemma
open_measurable_subspace - lemma
subspace_continuous_measurable_fun - corollary
open_continuous_measurable_fun - Hint about
measurable_fun_normr
- lemma
- in
lebesgue_integral.v:- lemma
measurable_fun_indic - lemma
ge0_integral_mscale - lemma
integral_pushforward
- lemma
- in
esum.v:- definition
esum
- definition
- moved from
lebesgue_integral.vtoclassical_sets.v:mem_set_pair1->mem_xsectionmem_set_pair2->mem_ysection
- in
derive.v:- generalized
is_diff_scalel
- generalized
- in
measure.v:- generalize
measurable_uncurry
- generalize
- in
lebesgue_measure.v:pushforwardrequires a proof that its argument is measurable
- in
lebesgue_integral.v:- change implicits of
integralM_indic
- change implicits of
- in
constructive_ereal.v:lte_pinfty_eq->ltey_eqle0R->fine_ge0lt0R->fine_gt0
- in
ereal.v:lee_pinfty_eq->leye_eqlee_ninfty_eq->leeNy_eq
- in
esum.v:esum0->esum1
- in
sequences.v:nneseries_lim_ge0->nneseries_ge0
- in
measure.v:ring_fsets->ring_finite_setdiscrete_measurable->discrete_measurable_natcvg_mu_inc->nondecreasing_cvg_mu
- in
lebesgue_integral.v:muleindic_ge0->nnfun_muleindic_ge0mulem_ge0->mulemu_ge0nnfun_mulem_ge0->nnsfun_mulemu_ge0
- in
esum.v:- lemma
fsetsP,sum_fset_set
- lemma
- in
mathcomp_extra.v:- lemma
big_const_idem - lemma
big_id_idem - lemma
big_rem_AC - lemma
bigD1_AC - lemma
big_mkcond_idem - lemma
big_split_idem - lemma
big_id_idem_AC - lemma
bigID_idem - lemmas
bigmax_leandbigmax_lt - lemma
bigmin_idr - lemma
bigmax_idr
- lemma
- in file
boolp.v:- lemmas
iter_compl,iter_compr,iter0
- lemmas
- in file
functions.v:- lemmas
oinv_iter,some_iter_inv,inv_iter, - Instances for functions interfaces for
iter(partial inverse up to bijective function)
- lemmas
- in
classical_sets.v:- lemma
preimage10P - lemma
setT_unit - lemma
subset_refl
- lemma
- in
ereal.v:- notations
_ < _ :> _and_ <= _ :> _ - lemmas
lee01,lte01,lee0N1,lte0N1 - lemmas
lee_pmul2l,lee_pmul2r,lte_pmul,lee_wpmul2l - lemmas
lee_lt_add,lee_lt_dadd,lee_paddl,lee_pdaddl,lte_paddl,lte_pdaddl,lee_paddr,lee_pdaddr,lte_paddr,lte_pdaddr - lemmas
muleCA,muleAC,muleACA
- notations
- in
reals.v:- lemmas
Rfloor_lt_int,floor_lt_int,floor_ge_int - lemmas
ceil_ge_int,ceil_lt_int
- lemmas
- in
lebesgue_integral.v:- lemma
ge0_emeasurable_fun_sum - lemma
integrableMr
- lemma
- in
ereal.v:- generalize
lee_pmul - simplify
lte_le_add,lte_le_dadd,lte_le_sub,lte_le_dsub
- generalize
- in
measure.v:- generalize
pushforward
- generalize
- in
lebesgue_integral.v- change
Argumentsofeq_integrable - fix pretty-printing of
{mfun _ >-> _},{sfun _ >-> _},{nnfun _ >-> _} - minor generalization of
eq_measure_integral
- change
- from
topology.vtomathcomp_extra.v:- generalize
ltr_bigminrtoporderTypeand rename tobigmin_lt - generalize
bigminr_lertoorderTypeand rename tobigmin_le
- generalize
- moved out of module
Bigminrinnormedtype.vtomathcomp_extra.vand generalized toorderType:- lemma
bigminr_ler_cond, renamed tobigmin_le_cond
- lemma
- moved out of module
Bigminrinnormedtype.vtomathcomp_extra.v:- lemma
bigminr_maxr
- lemma
- moved from from module
Bigminrinnormedtype.v- to
mathcomp_extra.vand generalized toorderTypebigminr_mkcond->bigmin_mkcondbigminr_split->bigmin_splitbigminr_idl->bigmin_idlbigminrID->bigminIDbigminrD1->bigminD1bigminr_inf->bigmin_infbigminr_gerP->bigmin_gePbigminr_gtrP->bigmin_gtPbigminr_eq_arg->bigmin_eq_argeq_bigminr->eq_bigmin
- to
topology.vand generalized toorderTypebigminr_lerP->bigmin_lePbigminr_ltrP->bigmin_ltP
- to
- moved from
topology.vtomathcomp_extra.v:bigmax_lerP->bigmax_lePbigmax_ltrP->bigmax_ltPler_bigmax_cond->le_bigmax_condler_bigmax->le_bigmaxle_bigmax->homo_le_bigmax
- in
ereal.v:lee_pinfty_eq->leye_eqlee_ninfty_eq->leeNy_eq
- in
classical_sets.v:set_bool->setT_bool
- in
topology.v:bigmax_gerP->bigmax_gePbigmax_gtrP->bigmax_gtP
- in
lebesgue_integral.v:emeasurable_funeM->measurable_funeM
- in
topology.v:bigmax_seq1,bigmax_pred1_eq,bigmax_pred1
- in
normedtype.v(moduleBigminr)bigminr_ler_cond,bigminr_ler.bigminr_seq1,bigminr_pred1_eq,bigminr_pred1
- file
ereal.vsplit in two filesconstructive_ereal.vandereal.v(the latter exports the former, so the "Require Import ereal" can just be kept unchanged)
- in file
classical_sets.v- lemma
set_bool - lemma
supremum_out - definition
isLub - lemma
supremum1 - lemma
trivIset_set0 - lemmas
trivIset_image,trivIset_comp - notation
trivIsets
- lemma
- in file
topology.v:- definition
near_covering - lemma
compact_near_coveringP - lemma
continuous_localP,equicontinuous_subset_id - lemmas
precompact_pointwise_precompact,precompact_equicontinuous,Ascoli - definition
frechet_filter, instancesfrechet_properfilter, andfrechet_properfilter_nat - definition
principal_filterdiscrete_space - lemma
principal_filterP,principal_filter_proper,principal_filter_ultra - canonical
bool_discrete_filter - lemma
compactU - lemma
discrete_sing,discrete_nbhs,discrete_open,discrete_set1,discrete_closed,discrete_cvg,discrete_hausdorff - canonical
bool_discrete_topology - definition
discrete_topological_mixin - lemma
discrete_bool,bool_compact
- definition
- in
Rstruct.v:- lemmas
Rsupremums_neq0,Rsup_isLub,Rsup_ub
- lemmas
- in
reals.v:- lemma
floor_natz - lemma
opp_set_eq0,ubound0,lboundT
- lemma
- in file
lebesgue_integral.v:- lemma
integrable0 - mixins
isAdditiveMeasure,isMeasure0,isMeasure,isOuterMeasure - structures
AdditiveMeasure,Measure,OuterMeasure - notations
additive_measure,measure,outer_measure - definition
mrestr - lemmas
integral_measure_sum_nnsfun,integral_measure_add_nnsfun - lemmas
ge0_integral_measure_sum,integral_measure_add,integral_measure_series_nnsfun,ge0_integral_measure_series - lemmas
integrable_neg_fin_num,integrable_pos_fin_num - lemma
integral_measure_series - lemmas
counting_dirac,summable_integral_dirac,integral_count - lemmas
integrable_abse,integrable_summable,integral_bigcup
- lemma
- in
measure.v:- lemmas
additive_measure_snum_subproof,measure_snum_subproof - canonicals
additive_measure_snum,measure_snum - definition
mscale - definition
restr - definition
counting, canonicalmeasure_counting - definition
discrete_measurable, instantiated as ameasurableType - lemma
sigma_finite_counting - lemma
msum_mzero
- lemmas
- in
lebesgue_measure.v:- lemma
diracE - notation
_.-ocitv - definition
ocitv_display
- lemma
- in file
cardinality.v:- lemmas
trivIset_sum_card,fset_set_sub,fset_set_set0
- lemmas
- in file
sequences.v:- lemmas
nat_dvg_real,nat_cvgPpinfty,nat_nondecreasing_is_cvg - definition
nseries, lemmasle_nseries,cvg_nseries_near,dvg_nseries
- lemmas
- in file
ereal.v:- lemma
fin_num_abs
- lemma
- in file
esum.v:- definition
summable - lemmas
summable_pinfty,summableE,summableD,summableN,summableB,summable_funepos,summable_funeneg - lemmas
summable_fine_sum,summable_cvg,summable_nneseries_lim,summable_nnseries,summable_nneseries_esum,esumB - lemma
fsbig_esum
- definition
- in
trigo.v:- lemmas
cos1_gt0,pi_ge2 - lemmas
pihalf_ge1,pihalf_lt2
- lemmas
- in
measure.v:- inductive
measure_display - notation
_.-sigma,_.-sigma.-measurable,_.-ring,_.-ring.-measurable,_.-cara,_.-cara.-measurable,_.-caratheodory,_.-prod._.-prod.-measurable - notation
_.-measurable - lemma
measure_semi_additive_ord,measure_semi_additive_ord_I - lemma
decomp_finite_set
- inductive
- in
functions.v:- lemma
patch_pred,trivIset_restr
- lemma
has_sup1,has_inf1moved fromreals.vtoclassical_sets.v
- in
topology.v:- generalize
cluster_cvgE,fam_cvgE,ptws_cvg_compact_family - rewrite
equicontinuousandpointwise_precompactto use index
- generalize
- in
Rstruct.v:- statement of lemma
completeness', renamed toRcondcomplete - statement of lemma
real_sup_adherent
- statement of lemma
- in
ereal.v:- statements of lemmas
ub_ereal_sup_adherent,lb_ereal_inf_adherent
- statements of lemmas
- in
reals.v:- definition
sup - statements of lemmas
sup_adherent,inf_adherent
- definition
- in
sequences.v:- generalize
eq_nneseries,nneseries0
- generalize
- in
mathcomp_extra.v:- generalize
card_fset_sum1
- generalize
- in
lebesgue_integral.v:- change the notation
\int_ product_measure1takes a proof that the second measure is sigma-finiteproduct_measure2takes a proof that the first measure is sigma-finite- definitions
integralandintegrablenow take a function instead of a measure - remove one space in notation
\d_ - generalize
nondecreasing_series - constant
measurableTypenow take an addititional parameter of typemeasure_display
- change the notation
- in
measure.v:measure0is now a lemma- statement of lemmas
content_fin_bigcup,measure_fin_bigcup,ring_fsets,decomp_triv,cover_decomp,decomp_set0,decompN0,Rmu_fin_bigcup - definitions
decomp,measure - several constants now take a parameter of type
measure_display
- in
trigo.v:- lemma
cos_exists
- lemma
- in
set_interval.v:- generalize to numDomainType:
mem_1B_itvcc,conv,conv_id,convEl,convEr,conv10,conv0,conv1,conv_sym,conv_flat,leW_conv,factor,leW_factor,factor_flat,factorl,ndconv,ndconvE
- generalize to numFieldType
factorr,factorK,convK,conv_inj,factor_inj,conv_bij,factor_bij,le_conv,le_factor,lt_conv,lt_factor,conv_itv_bij,factor_itv_bij,mem_conv_itv,mem_conv_itvcc,range_conv,range_factor
- generalize to realFieldType:
mem_factor_itv
- generalize to numDomainType:
- in
fsbig.v:- generalize
exchange_fsum
- generalize
- lemma
preimage_cstgeneralized and moved fromlebesgue_integral.vtofunctions.v - lemma
fset_set_imagemoved frommeasure.vtocardinality.v - in
reals.v:- type generalization of
has_supPn
- type generalization of
- in
lebesgue_integral.v:integralK->integralrM
- in
trigo.v:cos_pihalf_uniq->cos_02_uniq
- in
measure.v:sigma_algebraD->sigma_algebraCDg_measurable->salgebraTypeg_measurable_eqType->salgebraType_eqTypeg_measurable_choiceType->salgebraType_choiceTypeg_measurable_ptType->salgebraType_ptType
- in
lebesgue_measure.v:itvs->ocitv_typemeasurable_fun_sum->emeasurable_fun_sum
- in
classical_sets.v:trivIset_restr->trivIset_widensupremums_set1->supremums1infimums_set1->infimums1
- in
Rstruct.v:- definition
real_sup - lemma
real_sup_is_lub,real_sup_ub,real_sup_out
- definition
- in
reals.v:- field
supfrommixin_ofin moduleReal
- field
- in
measure.v:- notations
[additive_measure _ -> _],[measure _ -> _],[outer_measure _ -> _ ], - lemma
measure_is_additive_measure - definitions
caratheodory_measure_mixin,caratheodory_measure - coercions
measure_to_nadditive_measure,measure_additive_measure - canonicals
measure_additive_measure,set_ring_measure,outer_measure_of_measure,Hahn_ext_measure - lemma
Rmu0 - lemma
measure_restrE
- notations
- in
measure.v:- definition
g_measurableType - notation
mu.-measurable
- definition
- in
mathcomp_extra.v:- lemma
card_fset_sum1
- lemma
- in
classical_sets.v:- lemma
preimage_setT - lemma
bigsetU_bigcup - lemmas
setI_IIandsetU_II
- lemma
- in
topology.v:- definition
powerset_filter_from - globals
powerset_filter_from_filter - lemmas
near_small_set,small_set_sub - lemmas
withinET,closureEcvg,entourage_sym,fam_nbhs - generalize
cluster_cvgE,ptws_cvg_compact_family - lemma
near_compact_covering - rewrite
equicontinuousandpointwise_precompactto use index - lemmas
ptws_cvg_entourage,equicontinuous_closure,ptws_compact_cvgptws_compact_closed,ascoli_forward,compact_equicontinuous
- definition
- in
normedtype.v:- definition
bigcup_ointsub - lemmas
bigcup_ointsub0,open_bigcup_ointsub,is_interval_bigcup_ointsub,bigcup_ointsub_sub,open_bigcup_rat - lemmas
mulrl_continuousandmulrr_continuous.
- definition
- in
ereal.v:- definition
expewith notation^+ - definition
enatmulwith notation*+(scope%E) - definition
ednatmulwith notation*+(scope%dE) - lemmas
fineM,enatmul_pinfty,enatmul_ninfty,EFin_natmul,mule2n,expe2,mule_natl - lemmas
ednatmul_pinfty,ednatmul_ninfty,EFin_dnatmul,dmule2n,ednatmulE,dmule_natl - lemmas
sum_fin_num,sum_fin_numP - lemmas
oppeB,doppeB,fineB,dfineB - lemma
abse1 - lemma
ltninfty_adde_def
- definition
- in
esum.v:- lemma
esum_set1 - lemma
nnseries_interchange
- lemma
- in
cardinality.v:- lemma
fset_set_image,card_fset_set,geq_card_fset_set,leq_card_fset_set,infinite_set_fset,infinite_set_fsetPandfcard_eq.
- lemma
- in
sequences.v:- lemmas
nneseriesrM,ereal_series_cond,ereal_series,nneseries_split - lemmas
lee_nneseries
- lemmas
- in
numfun.v:- lemma
restrict_lee
- lemma
- in
measure.v:- definition
pushforwardand canonicalpushforward_measure - definition
diracwith notation\d_and canonicaldirac_measure - lemmas
finite_card_dirac,infinite_card_dirac - lemma
eq_measure - definition
msumand canonicalmeasure_sum' - definition
mzeroand canonicalmeasure_zero' - definition
measure_addand lemmameasure_addE - definition
mseriesand canonicalmeasure_series'
- definition
- in
set_interval.v:- lemma
opp_itv_infty_bnd
- lemma
- in
lebesgue_integral.v:- lemmas
integral_set0,ge0_integral_bigsetU,ge0_integral_bigcup
- lemmas
- in
lebesgue_measure.v:- lemmas
is_interval_measurable,open_measurable,continuous_measurable_fun - lemma
emeasurable_funN - lemmas
itv_bnd_open_bigcup,itv_bnd_infty_bigcup,itv_infty_bnd_bigcup,itv_open_bnd_bigcup - lemma
lebesgue_measure_set1 - lemma
lebesgue_measure_itv - lemma
lebesgue_measure_rat
- lemmas
- in
lebesgue_integral.v:- lemmas
integralM_indic,integralM_indic_nnsfun,integral_dirac - lemma
integral_measure_zero - lemma
eq_measure_integral
- lemmas
- in
mathcomp_extra.v:- generalize
card_fset_sum1
- generalize
- in
classical_sets.v:- lemma
some_bigcupgeneralized and renamed toimage_bigcup
- lemma
- in
esumv:- remove one hypothesis in lemmas
reindex_esum,esum_image
- remove one hypothesis in lemmas
- moved from
lebesgue_integral.vtolebesgue_measure.vand generalized- hint
measurable_set1/emeasurable_set1
- hint
- in
sequences.v:- generalize
eq_nneseries,nneseries0
- generalize
- in
set_interval.v:- generalize
opp_itvootoopp_itv_bnd_bnd
- generalize
- in
lebesgue_integral.v:- change the notation
\int_
- change the notation
- in
ereal.v:num_abs_le->num_abse_lenum_abs_lt->num_abse_ltaddooe->addyeaddeoo->addeymule_ninfty_pinfty->mulNyymule_pinfty_ninfty->mulyNymule_pinfty_pinfty->mulyymule_ninfty_ninfty->mulNyNylte_0_pinfty->lt0ylte_ninfty_0->ltNy0lee_0_pinfty->le0ylee_ninfty_0->leNy0lte_pinfty->lteylte_ninfty->ltNyelee_pinfty->leeylee_ninfty->leNyemulrpinfty_real->real_mulrymulpinftyr_real->real_mulyrmulrninfty_real->real_mulrNymulninftyr_real->real_mulNyrmulrpinfty->mulrymulpinftyr->mulyrmulrninfty->mulrNymulninftyr->mulNyrgt0_mulpinfty->gt0_mulyelt0_mulpinfty->lt0_mulyegt0_mulninfty->gt0_mulNyelt0_mulninfty->lt0_mulNyemaxe_pinftyl->maxyemaxe_pinftyr->maxeymaxe_ninftyl->maxNyemaxe_ninftyr->maxeNymine_ninftyl->minNyemine_ninftyr->mineNymine_pinftyl->minyemine_pinftyr->mineymulrinfty_real->real_mulr_inftymulrinfty->mulr_infty
- in
realfun.v:exp_continuous->exprn_continuous
- in
sequences.v:ereal_pseriesD->nneseriesDereal_pseries0->nneseries0ereal_pseries_pred0->nneseries_pred0eq_ereal_pseries->eq_nneseriesereal_pseries_sum_nat->nneseries_sum_natereal_pseries_sum->nneseries_sumereal_pseries_mkcond->nneseries_mkcondereal_nneg_series_lim_ge->nneseries_lim_geis_cvg_ereal_nneg_series_cond->is_cvg_nneseries_condis_cvg_ereal_nneg_series->is_cvg_nneseriesereal_nneg_series_lim_ge0->nneseries_lim_ge0adde_def_nneg_series->adde_def_nneseries
- in
esum.v:ereal_pseries_esum->nneseries_esum
- in
numfun.v:funenng->funeposfunennp->funenegfunenng_ge0->funepos_ge0funennp_ge0->funeneg_ge0funenngN->funeposNfunennpN->funenegNfunenng_restrict->funepos_restrictfunennp_restrict->funeneg_restrictge0_funenngE->ge0_funeposEge0_funennpE->ge0_funenegEle0_funenngE->le0_funeposEle0_funennpE->le0_funenegEgt0_funenngM->gt0_funeposMgt0_funennpM->gt0_funenegMlt0_funenngM->lt0_funeposMlt0_funennpM->lt0_funenegMfunenngnnp->funeposnegadd_def_funennpg->add_def_funeposnegfuneD_Dnng->funeD_DposfuneD_nngD->funeD_posD
- in
lebesgue_measure.v:emeasurable_fun_funenng->emeasurable_fun_funeposemeasurable_fun_funennp->emeasurable_fun_funeneg
- in
lebesgue_integral.v:integrable_funenng->integrable_funeposintegrable_funennp->integrable_funenegintegral_funennp_lt_pinfty->integral_funeneg_lt_pinftyintegral_funenng_lt_pinfty->integral_funepos_lt_pinftyae_eq_funenng_funennp->ae_eq_funeposneg
- in
mathcomp_extra.v:- lemmas
natr_absz,ge_pinfty,le_ninfty,gt_pinfty,lt_ninfty
- lemmas
- in
classical_sets.v:- notation
[set of _]
- notation
- in
topology.v:- lemmas
inj_can_sym_in_on,inj_can_sym_on,inj_can_sym_in
- lemmas
- in
signed.v:- notations
%:nngnumand%:posnum
- notations
- in
ereal.v:- notations
{posnum \bar R}and{nonneg \bar R} - notations
%:posand%:nnginereal_dual_scopeandereal_scope - variants
posnume_specandnonnege_spec - definitions
posnume,nonnege,abse_reality_subdef,ereal_sup_reality_subdef,ereal_inf_reality_subdef - lemmas
ereal_comparable,pinfty_snum_subproof,ninfty_snum_subproof,EFin_snum_subproof,fine_snum_subproof,oppe_snum_subproof,adde_snum_subproof,dadde_snum_subproof,mule_snum_subproof,abse_reality_subdef,abse_snum_subproof,ereal_sup_snum_subproof,ereal_inf_snum_subproof,num_abse_eq0,num_lee_maxr,num_lee_maxl,num_lee_minr,num_lee_minl,num_lte_maxr,num_lte_maxl,num_lte_minr,num_lte_minl,num_abs_le,num_abs_lt,posnumeP,nonnegeP - signed instances
pinfty_snum,ninfty_snum,EFin_snum,fine_snum,oppe_snum,adde_snum,dadde_snum,mule_snum,abse_snum,ereal_sup_snum,ereal_inf_snum
- notations
- in
functions.v:addrfunErenamed toaddrfctEand generalized toType,zmodTypeopprfunErenamed toopprfctEand generalized toType,zmodType
- moved from
functions.vtoclassical_sets.v- lemma
subsetW, definitionsubsetCW
- lemma
- in
mathcomp_extra.v:- fix notation
ltLHS
- fix notation
- in
topology.v:open_bigU->bigcup_open
- in
functions.v:mulrfunE->mulrfctEscalrfunE->scalrfctEexprfunE->exprfctEvalLr->valRvalLr_fun->valR_funvalLrK->valRKoinv_valLr->oinv_valRvalLr_inj_subproof->valR_inj_subproofvalLr_surj_subproof->valR_surj_subproof
- in
measure.v:measurable_bigcup->bigcupT_measurablemeasurable_bigcap->bigcapT_measurablemeasurable_bigcup_rat->bigcupT_measurable_rat
- in
lebesgue_measure.v:emeasurable_bigcup->bigcupT_emeasurable
- files
posnum.vandnngnum.v(both subsumed bysigned.v) - in
topology.v:ltr_distlC,ler_distlC
- in
mathcomp_extra.v:- lemma
all_sig2_cond - definition
olift - lemmas
obindEapp,omapEbind,omapEapp,oappEmap,omap_comp,oapp_comp,oapp_comp_f,olift_comp,compA,can_in_pcan,pcan_in_inj,can_in_comp,pcan_in_comp,ocan_comp,pred_omap,ocan_in_comp,eqbLR,eqbRL - definition
opp_fun, notation\- - definition
mul_fun, notation\* - definition
max_fun, notation\max - lemmas
gtr_opp,le_le_trans - notations
eqLHS,eqRHS,leLHS,leRHS,ltLHS,lrRHS - inductive
boxed - lemmas
eq_big_supp,perm_big_supp_cond,perm_big_supp - lemmma
mulr_ge0_gt0 - lemmas
lt_le,gt_ge - coercion
pair_of_interval - lemmas
ltBSide,leBSide - multirule
lteBSide - lemmas
ltBRight_leBLeft,leBRight_ltBLeft - multirule
bnd_simp - lemmas
itv_splitU1,itv_split1U - definition
miditv - lemmas
mem_miditv,miditv_bnd2,miditv_bnd1 - lemmas
predC_itvl,predC_itvr,predC_itv
- lemma
- in
boolp.v:- lemmas
cid2,propeqP,funeqP,funeq2P,funeq3P,predeq2P,predeq3P - hint
Prop_irrelevance - lemmas
pselectT,eq_opE - definition
classicType, canonicalsclassicType_eqType,classicType_choiceType, notation{classic ...} - definition
eclassicType, canonicalseclassicType_eqType,eclassicType_choiceType, notation{eclassic ...} - definition
canonical_of, notationscanonical_,canonical, lemmacanon - lemmas
Peq,Pchoice,eqPchoice - lemmas
contra_notT,contraPT,contraTP,contraNP,contraNP,contra_neqP,contra_eqP - lemmas
forallPNP,existsPNP - module
FunOrder, lemmalefP - lemmas
meetfEandjoinfE
- lemmas
- in
classical_sets.v:- notations
[set: ...],*`,`* - definitions
setMRandsetML,disj_set - coercion
set_type, definitionSigSub - lemmas
set0fun,set_mem,mem_setT,mem_setK,set_memK,memNset,setTPn,in_set0,in_setT,in_setC,in_setI,in_setD,in_setU,in_setM,set_valP,set_true,set_false,set_andb,set_orb,fun_true,fun_false,set_mem_set,mem_setE,setDUK,setDUK,setDKU,setUv,setIv,setvU,setvI,setUCK,setUKC,setICK,setIKC,setDIK,setDKI,setI1,set1I,subsetT,disj_set2E,disj_set2P,disj_setPS,disj_set_sym,disj_setPCl,disj_setPCr,disj_setPLR,disj_setPRL,setF_eq0,subsetCl,subsetCr,subsetC2,subsetCP,subsetCPl,subsetCPr,subsetUl,subsetUr,setDidl,subIsetl,subIsetr,subDsetl,subDsetrsetUKD,setUDK,setUIDK,bigcupM1l,bigcupM1r,pred_omapE,pred_omap_set - hints
subsetUl,subsetUr,subIsetl,subIsetr,subDsetl,subDsetr - lemmas
image2E - lemmas
Iiota,ordII,IIord,ordIIK,IIordK - lemmas
set_imfset,imageT - hints
imageP,imageT - lemmas
homo_setP,image_subP,image_sub,subset_set2 - lemmas
eq_preimage,comp_preimage,preimage_id,preimage_comp,preimage_setI_eq0,preimage0eq,preimage0,preimage10, - lemmas
some_set0,some_set1,some_setC,some_setR,some_setI,some_setU,some_setD,sub_image_some,sub_image_someP,image_some_inj,some_set_eq0,some_preimage,some_image,disj_set_some - lemmas
some_bigcup,some_bigcap,bigcup_set_type,bigcup_mkcond,bigcup_mkcondr,bigcup_mkcondl,bigcap_mkcondr,bigcap_mkcondl,bigcupDr,setD_bigcupl,bigcup_bigcup_dep,bigcup_bigcup,bigcupID.bigcapID - lemmas
bigcup2inE,bigcap2,bigcap2E,bigcap2inE - lemmas
bigcup_sub,sub_bigcap,subset_bigcup,subset_bigcap,bigcap_set_type,bigcup_pred - lemmas
bigsetU_bigcup2,bigsetI_bigcap2 - lemmas
in1TT,in2TT,in3TT,inTT_bij - canonical
option_pointedType - notations
[get x | E],[get x : T | E] - variant
squashed, notation$| ... |, tactic notationsquash - definition
unsquash, lemmaunsquashK - module
Emptythat declares the typeemptyTypewith the expected[emptyType of ...]notations - canonicals
False_emptyTypeandvoid_emptyType - definitions
noandany - lemmas
empty_eq0 - definition
quasi_canonical_of, notationsquasi_canonical_,quasi_canonical, lemmaqcanon - lemmas
choicePpointed,eqPpointed,Ppointed - lemmas
trivIset_setIl,trivIset_setIr,sub_trivIset,trivIset_bigcup2 - definition
smallest - lemmas
sub_smallest,smallest_sub,smallest_id - lemma and hint
sub_gen_smallest - lemmas
sub_smallest2r,sub_smallest2l - lemmas
preimage_itv,preimage_itv_o_infty,preimage_itv_c_infty,preimage_itv_infty_o,preimage_itv_infty_c,notin_setI_preimage - definitions
xsection,ysection - lemmas
xsection0,ysection0,in_xsectionM,in_ysectionM,notin_xsectionM,notin_ysectionM,xsection_bigcup,ysection_bigcup,trivIset_xsection,trivIset_ysection,le_xsection,le_ysection,xsectionD,ysectionD
- notations
- in
topology.v:- lemma
filter_pair_set - definition
prod_topo_apply - lemmas
prod_topo_applyE,prod_topo_apply_continuous,hausdorff_product - lemmas
closedC,openC - lemmas
continuous_subspace_in - lemmas
closed_subspaceP,closed_subspaceW,closure_subspaceW - lemmas
nbhs_subspace_subset,continuous_subspaceW,nbhs_subspaceT,continuous_subspaceT_for,continuous_subspaceT,continuous_open_subspace - globals
subspace_filter,subspace_proper_filter - notation
{within ..., continuous ...} - definitions
compact_near,precompact,locally_compact - lemmas
precompactE,precompact_subset,compact_precompact,precompact_closed - definitions
singletons,equicontinuous,pointwise_precompact - lemmas
equicontinuous_subset,equicontinuous_cts - lemmas
pointwise_precomact_subset,pointwise_precompact_precompactuniform_pointwise_compact,compact_pointwise_precompact - lemmas
compact_set1,uniform_set1,ptws_cvg_family_singleton,ptws_cvg_compact_family - lemmas
connected1,connectedU - lemmas
connected_component_sub,connected_component_id,connected_component_out,connected_component_max,connected_component_refl,connected_component_cover,connected_component_cover,connected_component_trans,same_connected_component - lemma
continuous_is_cvg - lemmas
uniform_limit_continuous,uniform_limit_continuous_subspace
- lemma
- in
normedtype.v- generalize
IVTwith subspace topology - lemmas
abse_continuous,cvg_abse,is_cvg_abse,EFin_lim,near_infty_natSinv_expn_lt
- generalize
- in
reals.v:- lemmas
sup_gt,inf_lt,ltr_add_invr
- lemmas
- in
ereal.v:- lemmas
esum_ninftyP,esum_pinftyP - lemmas
addeoo,daddeoo - lemmas
desum_pinftyP,desum_ninftyP - lemmas
lee_pemull,lee_nemul,lee_pemulr,lee_nemulr - lemma
fin_numM - definition
mule_def, notationx *? y - lemma
mule_defC - notations
\*inereal_scope, andereal_dual_scope - lemmas
mule_def_fin,mule_def_neq0_infty,mule_def_infty_neq0,neq0_mule_def - notation
\-inereal_scopeandereal_dual_scope - lemma
fin_numB - lemmas
mule_eq_pinfty,mule_eq_ninfty - lemmas
fine_eq0,abse_eq0 - lemmas
EFin_inj,EFin_bigcup,EFin_setC,adde_gt0,mule_ge0_gt0,lte_mul_pinfty,lt0R,adde_defEninfty,lte_pinfty_eq,ge0_fin_numE,eq_pinftyP, - canonical
mule_monoid - lemmas
preimage_abse_pinfty,preimage_abse_ninfty - notation
\- - lemmas
fin_numEn,fin_numPn,oppe_eq0,ltpinfty_adde_def,gte_opp,gte_dopp,gt0_mulpinfty,lt0_mulpinfty,gt0_mulninfty,lt0_mulninfty,eq_infty,eq_ninfty,hasNub_ereal_sup,ereal_sup_EFin,ereal_inf_EFin,restrict_abse - canonical
ereal_pointed - lemma
seq_psume_eq0 - lemmas
lte_subl_addl,lte_subr_addl,lte_subel_addr,lte_suber_addr,lte_suber_addl,lee_subl_addl,lee_subr_addl,lee_subel_addr,lee_subel_addl,lee_suber_addr,lee_suber_addl - lemmas
lte_dsubl_addl,lte_dsubr_addl,lte_dsubel_addr,lte_dsuber_addr,lte_dsuber_addl,lee_dsubl_addl,lee_dsubr_addl,lee_dsubel_addr,lee_dsubel_addl,lee_dsuber_addr,lee_dsuber_addl - lemmas
realDe,realDed,realMe,nadde_eq0,padde_eq0,adde_ss_eq0,ndadde_eq0,pdadde_eq0,dadde_ss_eq0,mulrpinfty_real,mulpinftyr_real,mulrninfty_real,mulninftyr_real,mulrinfty_real
- lemmas
- in
sequences.v:- lemmas
ereal_cvgM_gt0_pinfty,ereal_cvgM_lt0_pinfty,ereal_cvgM_gt0_ninfty,ereal_cvgM_lt0_ninfty,ereal_cvgM - definition
eserieswith notation[eseries E]_n- lemmas
eseriesEnat,eseriesEord,eseriesSr,eseriesS,eseriesSB,eseries_addn,sub_eseries_geq,sub_eseries,sub_double_eseries,eseriesD
- lemmas
- definition
etelescope - lemmas
ereal_cvgB,nondecreasing_seqD,lef_at - lemmas
lim_mkord,ereal_pseries_mkcond,ereal_pseries_sum - definition
sdrop - lemmas
has_lbound_sdrop,has_ubound_sdrop - definitions
sups,infs - lemmas
supsN,infsN,nonincreasing_sups,nondecreasing_infs,is_cvg_sups,is_cvg_infs,infs_le_sups,cvg_sups_inf,cvg_infs_sup,sups_preimage,infs_preimage,bounded_fun_has_lbound_sups,bounded_fun_has_ubound_infs - definitions
lim_sup,lim_inf - lemmas
lim_infN,lim_supE,lim_infE,lim_inf_le_lim_sup,cvg_lim_inf_sup,cvg_lim_infE,cvg_lim_supE,cvg_sups,cvg_infs,le_lim_supD,le_lim_infD,lim_supD,lim_infD - definitions
esups,einfs - lemmas
esupsN,einfsN,nonincreasing_esups,nondecreasing_einfs,einfs_le_esups,cvg_esups_inf,is_cvg_esups,cvg_einfs_sup,is_cvg_einfs,esups_preimage,einfs_preimage - definitions
elim_sup,elim_inf - lemmas
elim_infN,elim_supN,elim_inf_sup,elim_inf_sup,cvg_ninfty_elim_inf_sup,cvg_ninfty_einfs,cvg_ninfty_esups,cvg_pinfty_einfs,cvg_pinfty_esups,cvg_esups,cvg_einfs,cvg_elim_inf_sup,is_cvg_elim_infE,is_cvg_elim_supE - lemmas
elim_inf_shift,elim_sup_le_cvg
- lemmas
- in
derive.v- lemma
MVT_segment - lemma
derive1_cst
- lemma
- in
realfun.v:- lemma
continuous_subspace_itv
- lemma
- in
esum.v(wascsum.v):- lemmas
sum_fset_set,esum_ge,esum0,le_esum,eq_esum,esumD,esum_mkcond,esum_mkcondr,esum_mkcondl,esumID,esum_sum,esum_esum,lee_sum_fset_nat,lee_sum_fset_lim,ereal_pseries_esum,reindex_esum,esum_pred_image,esum_set_image,esum_bigcupT
- lemmas
- in
cardinality.v:- notations
#>=,#=,#!= - scope
card_scope, delimitercard - notation
infinite_set - lemmas
injPex,surjPex,bijPex,surjfunPex,injfunPex - lemmas
inj_card_le,pcard_leP,pcard_leTP,pcard_injP,ppcard_leP - lemmas
pcard_eq,pcard_eqP,card_bijP,card_eqVP,card_set_bijP - lemmas
ppcard_eqP,card_eqxx,inj_card_eq,card_some,card_image,card_imsub - hint
card_eq00 - lemmas
empty_eq0,card_le_emptyl,card_le_emptyr - multi-rule
emptyE_subdef - lemmas
card_eq_le,card_eqPle,card_leT,card_image_le - lemmas
card_le_eql,card_le_eqr,card_eql,card_eqr,card_ge_image,card_le_image,card_le_image2,card_eq_image,card_eq_imager,card_eq_image2 - lemmas
card_ge_some,card_le_some,card_le_some2,card_eq_somel,card_eq_somer,card_eq_some2 - lemmas
card_eq_emptyr,card_eq_emptyl,emptyE - lemma and hint
card_setT - lemma and hint
card_setT_sym - lemmas
surj_card_ge,pcard_surjP,pcard_geP,ocard_geP,pfcard_geP - lemmas
ocard_eqP,oocard_eqP,sub_setP,card_subP - lemmas
eq_countable,countable_set_countMixin,countableP,sub_countable - lemmas
card_II,finite_fsetP,finite_subfsetP,finite_seqP,finite_fset,finite_finpred,finite_finset,infiniteP,finite_setPn - lemmas
card_le_finite,finite_set_leP,card_ge_preimage,eq_finite_set,finite_image - lemma and hint
finite_set1 - lemmas
finite_setU,finite_set2,finite_set3,finite_set4,finite_set5,finite_set6,finite_set7,finite_setI,finite_setIl,finite_setIr,finite_setM,finite_image2,finite_image11 - definition
fset_set - lemmas
fset_setK,in_fset_set,fset_set0,fset_set1,fset_setU,fset_setI,fset_setU1,fset_setD,fset_setD1,fset_setM - definitions
fst_fset,snd_fset, notations.`1,.`2 - lemmas
finite_set_fst,finite_set_snd,bigcup_finite,finite_setMR,finite_setML,fset_set_II,set_fsetK,fset_set_inj,bigsetU_fset_set,bigcup_fset_set,bigsetU_fset_set_cond,bigcup_fset_set_cond,bigsetI_fset_set,bigcap_fset_set,super_bij,card_eq_fsetP,card_IID,finite_set_bij - lemmas
countable1,countable_fset - lemma and hint
countable_finpred - lemmas
eq_card_nat - canonical
rat_pointedType - lemmas
infinite_rat,card_rat,choicePcountable,eqPcountable,Pcountable,bigcup_countable,countableMR,countableM,countableML,infiniteMRl,cardMR_eq_nat - mixin
FiniteImage, structureFImFun, notations{fumfun ... >-> ...},[fimfun of ...], hintfimfunP - lemma and hint
fimfun_inP - definitions
fimfun,fimfun_key, canonicalfimfun_keyed - definitions
fimfun_Sub_subproof,fimfun_Sub - lemmas
fimfun_rect,fimfun_valP,fimfuneqP - definitions and canonicals
fimfuneqMixin,fimfunchoiceMixin - lemma
finite_image_cst,cst_fimfun_subproof,fimfun_cst - definition
cst_fimfun - lemma
comp_fimfun_subproof - lemmas
fimfun_zmod_closed,fimfunD,fimfunN,fimfunB,fimfun0,fimfun_sum - canonicals
fimfun_add,fimfun_zmod,fimfun_zmodType - definition
fimfun_zmodMixin
- notations
- in
measure.v:- definitions
setC_closed,setI_closed,setU_closed,setD_closed,setDI_closed,fin_bigcap_closed,finN0_bigcap_closed,fin_bigcup_closed,semi_setD_closed,ndseq_closed,trivIset_closed,fin_trivIset_closed,set_ring,sigma_algebra,dynkin,monotone_classes - notations
<<m D, G >>,<<m G >>,<<s D, G>>,<<s G>>,<<d G>>,<<r G>>,<<fu G>> - lemmas
fin_bigcup_closedP,finN0_bigcap_closedP,sedDI_closedP,sigma_algebra_bigcap,sigma_algebraP - lemma and hint
smallest_sigma_algebra - lemmas
sub_sigma_algebra2,sigma_algebra_id,sub_sigma_algebra,sigma_algebra0,sigma_algebraD,sigma_algebra_bigcup - lemma and hint
smallest_setring, lemma and hintsetring0 - lemmas
sub_setring2,setring_id,sub_setring,setringDI,setringU,setring_fin_bigcup,monotone_class_g_salgebra - lemmas
smallest_monotone_classE,monotone_class_subset,dynkinT,dynkinC,dynkinU,dynkin_monotone,dynkin_g_dynkin,sigma_algebra_dynkin,dynkin_setI_bigsetI,dynkin_setI_sigma_algebra,setI_closed_gdynkin_salgebra - factories
isRingOfSets,isAlgebraOfSets - lemmas
fin_bigcup_measurable,fin_bigcap_measurable,sigma_algebra_measurable,sigma_algebraC - definition
measure_restr, lemmameasure_restrE - definition
g_measurableType - lemmas
measurable_g_measurableTypeE - lemmas
measurable_fun_id,measurable_fun_comp,eq_measurable_fun,measurable_fun_cst,measurable_funU,measurable_funS,measurable_fun_ext,measurable_restrict - definitions
preimage_classandimage_class - lemmas
preimage_class_measurable_fun,sigma_algebra_preimage_class,sigma_algebra_image_class,sigma_algebra_preimage_classE,measurability - definition
sub_additive - lemma
semi_additiveW - lemmas
content_fin_bigcup,measure_fin_bigcup,measure_bigsetU_ord_cond,measure_bigsetU_ord, - coercion
measure_to_nadditive_measure - lemmas
measure_semi_bigcup,measure_bigcup - hint
measure_ge0 - lemma
big_trivIset - defintion
covered_by - module
SetRing- lemmas
ring_measurableE,ring_fsets - definition
decomp - lemmas
decomp_triv,decomp_triv,decomp_neq0,decomp_neq0,decomp_measurable,cover_decomp,decomp_sub,decomp_set0,decomp_set0 - definition
measure - lemma
Rmu_fin_bigcup,RmuE,Rmu0,Rmu_ge0,Rmu_additive,Rmu_additive_measure - canonical
measure_additive_measure
- lemmas
- lemmas
covered_byP,covered_by_finite,covered_by_countable,measure_le0,content_sub_additive,content_sub_fsum,content_ring_sup_sigma_additive,content_ring_sigma_additive,ring_sigma_sub_additive,ring_sigma_additive,measure_sigma_sub_additive,measureIl,measureIr,subset_measure0,measureUfinr,measureUfinl,eq_measureU,null_set_setU - lemmas
g_salgebra_measure_unique_trace,g_salgebra_measure_unique_cover,g_salgebra_measure_unique,measure_unique,measurable_mu_extE,Rmu_ext,measurable_Rmu_extE,sub_caratheodory - definition
Hahn_ext, canonicalHahn_ext_measure, lemmaHahn_ext_sigma_finite,Hahn_ext_unique,caratheodory_measurable_mu_ext - definitions
preimage_classes,prod_measurable,prod_measurableType - lemmas
preimage_classes_comp,measurableM,measurable_prod_measurableType,measurable_prod_g_measurableTypeR,measurable_prod_g_measurableType,prod_measurable_funP,measurable_fun_prod1,measurable_fun_prod2
- definitions
- in
functions.v:- definitions
set_fun,set_inj - mixin
isFun, structureFun, notations{fun ... >-> ...},[fun of ...]- field
funSdeclared as a hint
- field
- mixin
OInv, structureOInversible, notations{oinv ... >-> ...},[oinv of ...],'oinv_ ... - structure
OInvFun, notations{oinvfun ... >-> ...},[oinvfun of ...] - mixin
OInv_Inv, factoryInv, structureInversible, notations{inv ... >-> ...},[inv of ...], notation^-1 - structure
InvFun, notations{invfun ... >-> ...},[invfun of ...] - mixin
OInv_CanVwith fieldoinvKdeclared as a hint, factoryOCanV - structure
Surject, notations{surj ... >-> ...},[surj of ...] - structure
SurjFun, notations{surjfun ... >-> ...},[surjfun of ...] - structure
SplitSurj, notations{splitsurj ... >-> ...},[splitsurj of ...] - structure
SplitSurjFun, notations{splitsurjfun ... >-> ...},[splitsurjfun of ...] - mixin
OInv_Canwith fieldfunoKdeclared as a hint, structureInject, notations{inj ... >-> ...},[inj of ...] - structure
InjFun, notations{injfun ... >-> ...},[injfun of ...] - structure
SplitInj, notations{splitinj ... >-> ...},[splitinj of ...] - structure
SplitInjFun, notations{splitinjfun ... >-> ...},[splitinjfun of ...] - structure
Bij, notations{bij ... >-> ...},[bij of ...] - structure
SplitBij, notations{splitbij ... >-> ...},[splitbij of ...] - module
ShortFunSyntaxfor shorter notations - notation
'funS_ ... - definition and hint
fun_image_sub - definition and hint
mem_fun - notation
'mem_fun_ ... - lemma
some_inv - notation
'oinvS_ ... - variant
oinv_spec, lemma and hintoinvP - notation
'oinvP_ ... - lemma and hint
oinvT, notation'oinvT_ ... - lemma and hint
invK, notation'invK_ ... - lemma and hint
invS, notation'invS_ ... - notation
'funoK_ ... - definition
injand notation'inj_ ... - definition and hint
inj_hint - lemma and hint
funK, notation'funK_ ... - lemma
funP - factories
Inv_Can,Inv_CanV - lemmas
oinvV,surjoinv_inj_subproof,injoinv_surj_subproof,invV,oinv_some,some_canV_subproof,some_fun_subproof,inv_oapp,oinv_oapp,inv_oappV,oapp_can_subproof,oapp_surj_subproof,oapp_fun_subproof,inv_obind,oinv_obind,inv_obindV,oinv_comp,some_comp_inv,inv_comp,comp_can_subproof,comp_surj_subproof, - notation
'totalfun_ ... - lemmas
oinv_olift,inv_omap,oinv_omap,omapV - factories
canV,OInv_Can2,OCan2,Can,Inv_Can2,Can2,SplitInjFun_CanV,BijTT - lemmas
surjective_oinvK,surjective_oinvS, coercionsurjective_ocanV - definition and coercion
surjection_of_surj, lemmaPsurj, coercionsurjection_of_surj - lemma
oinv_surj, lemma and hintsurj, notation'surj_ - definition
funin, lemmaset_fun_image, notation[fun ... in ...] - definition
split_, lemmassplitV,splitis_inj_subproof,splitid,splitsurj_subproof, notation'split_,split - factories
Inj,SurjFun_Inj,SplitSurjFun_Inj - lemmas
Pinj,Pfun,injPfun,funPinj,funPsurj,surjPfun,Psplitinj,funPsplitinj,PsplitinjT,funPsplitsurj,PsplitsurjT - definition
unbind - lemmas
unbind_fun_subproof,oinv_unbind,inv_unbind_subproof,inv_unbind,unbind_inj_subproof,unbind_surj_subproof,odflt_unbind,oinv_val,val_bij_subproof,inv_insubd - definition
to_setT, lemmainv_to_setT - definition
subfun, lemmasubfun_inj - lemma
subsetW, definitionsubsetCW - lemmas
subfun_imageT,subfun_inv_subproof - definition
seteqfun, lemmaseteqfun_can2_subproof - definitions
incl,eqincl, lemmaeqincl_surj, notationinclT - definitions
mkfun,mkfun_fun - definition
set_val, lemmasoinv_set_val,set_valE - definition
ssquash - lemma
set0fun_inj - definitions
finset_val,val_finset - lemmas
finset_valK,val_finsetK - definition
glue,glue1,glue2, lemmasglue_fun_subproof,oinv_glue,some_inv_glue_subproof,inv_glue,glueo_can_subproof,glue_canv_subproof - lemmas
inv_addr,addr_can2_subproof - lemmas
empty_can_subproof,empty_fun_subproof,empty_canv_subproof - lemmas
subl_surj,subr_surj,surj_epi,epiP,image_eq,oinv_image_sub,oinv_Iimage_sub,oinv_sub_image,inv_image_sub,inv_Iimage_sub,inv_sub_image,reindex_bigcup,reindex_bigcap,bigcap_bigcup,trivIset_inj,set_bij_homo - definition and hint
fun_set_bij - coercion
set_bij_bijfun - definition and coercion
bij_of_set_bijection - lemma and hint
bij, notation'bij_ - definition
bijection_of_bijective, lemmasPbijTT,setTT_bijective, lemma and hintbijTT, notation'bijTT_ - lemmas
patchT,patchN,patchC,patch_inj_subproof,preimage_restrict,comp_patch,patch_setI,patch_set0,patch_setT,restrict_comp - definitions
sigL,sigLfun,valL_,valLfun_ - lemmas
sigL_isfun,valL_isfun,sigLE,eq_sigLP,eq_sigLfunP,sigLK,valLK,valLfunK,sigL_valL,sigL_valLfun\,sigL_restrict,image_sigL,eq_restrictP - notations
'valL_ ...,'valLfun_ ...,valL - definitions
sigR,valLr,valLr_fun - lemmas
sigRK,sigR_funK,valLrP,valLrK - lemmas
oinv_sigL,sigL_inj_subproof,sigL_surj_subproof,oinv_sigR,sigR_inj_subproof,sigR_surj_subproof,sigR_some_inv,inv_sigR,sigL_some_inv,inv_sigL,oinv_valL,oapp_comp_x,valL_inj_subproof,valL_surj_subproof,valL_some_inv,inv_valL,sigL_injP,sigL_surjP,sigL_funP,sigL_bijP,valL_injP,valL_surjP,valLfunP,valL_bijP - lemmas
oinv_valLr,valLr_inj_subproof,valLr_surj_subproof - definitions
sigLR,valLR,valLRfun, lemmasvalLRE,valLRfunE,sigL2K,valLRK,valLRfun_inj,sigLR_injP,valLR_injP,sigLR_surjP,valLR_surjP,sigLR_bijP,sigLRfun_bijP,valLR_bijP,subsetP - new lemmas
eq_set_bijLR,eq_set_bij,bij_omap,bij_olift,bij_sub_sym,splitbij_sub_sym,set_bij00,bij_subl,bij_sub,splitbij_sub,can2_bij,bij_sub_setUrl,bij_sub_setUrr,bij_sub_setUrr,bij_sub_setUlr - definition
pinv_, lemmasinjpinv_surj,injpinv_image,injpinv_bij,surjpK,surjpinv_image_sub,surjpinv_inj,surjpinv_bij,bijpinv_bij,pPbij_,pPinj_,injpPfun_,funpPinj_
- definitions
- in
fsbigop.v:- notations
\big[op/idx]_(i \in A) f i,\sum_(i \in A) f i - lemma
finite_index_key - definition
finite_support - lemmas
in_finite_support,no_finite_support,eq_finite_support - variant
finite_support_spec - lemmas
finite_supportP,eq_fsbigl,eq_fsbigr,fsbigTE,fsbig_mkcond,fsbig_mkcondr,fsbig_mkcondl,bigfs,fsbigE,fsbig_seq,fsbig1,fsbig_dflt,fsbig_widen,fsbig_supp,fsbig_fwiden,fsbig_set0,fsbig_set1,full_fsbigID,fsbigID,fsbigU,fsbigU0,fsbigD1,full_fsbig_distrr,fsbig_distrr,mulr_fsumr,mulr_fsuml,fsbig_ord,fsbig_finite,reindex_fsbig,fsbig_image,reindex_inside,reindex_fsbigT, notationreindex_inside_setT - lemmas
ge0_mule_fsumr,ge0_mule_fsuml,fsbigN1,fsume_ge0,fsume_le0,fsume_gt0,fsume_lt0,pfsume_eq0,fsbig_setU,pair_fsum,exchange_fsum,fsbig_split
- notations
- in
set_interval.v:- definition
neitv - lemmas
neitv_lt_bnd,set_itvP,subset_itvP,set_itvoo,set_itvco,set_itvcc,set_itvoc,set_itv1,set_itvoo0,set_itvoc0,set_itvco0,set_itv_infty_infty,set_itv_o_infty,set_itv_c_infty,set_itv_infty_o,set_itv_infty_c,set_itv_pinfty_bnd,set_itv_bnd_ninfty - multirules
set_itv_infty_set0,set_itvE - lemmas
setUitv1,setU1itv - lemmas
neitvE,neitvP,setitv0 - lemmas
set_itvI - lemmas and hints
has_lbound_itv,has_ubound_itv,hasNlbound_itv,hasNubound_itv,has_sup_half,has_inf_half - lemmas
opp_itv_bnd_infty,opp_itvoo,sup_itv,inf_itv,sup_itvcc,inf_itvccsetCitvl,setCitvr,setCitv - lemmas
set_itv_splitD,set_itvK,RhullT,RhullK,itv_c_inftyEbigcap,itv_bnd_inftyEbigcup,itv_o_inftyEbigcup,set_itv_setT,set_itv_ge - definitions
conv,factor - lemmas
conv_id,convEl,convEr,conv10,conv0,conv1,conv_sym,conv_flat,factorl,factorr,factor_flat,mem_1B_itvcc,factorK,convK,conv_inj,conv_bij,factor_bij,leW_conv,leW_factor,le_conv,le_factor,lt_conv,lt_factor - definition
ndconv - lemmas
ndconvE,conv_itv_bij,conv_itv_bij,factor_itv_bij,mem_conv_itv,mem_factor_itv,mem_conv_itvcc,range_conv,range_factor,Rhull_smallest,le_Rhull,neitv_Rhull,Rhull_involutive - coercion
ereal_of_itv_bound - lemmas
le_bnd_ereal,lt_ereal_bnd,neitv_bnd1,neitv_bnd2,Interval_ereal_mem,ereal_mem_Interval,trivIset_set_itv_nth - definition
disjoint_itv - lemmas
disjoint_itvxx,lt_disjoint,disjoint_neitv,disj_itv_Rhull
- definition
- new file
numfun.v- lemmas
restrict_set0,restrict_ge0,erestrict_set0,erestrict_ge0,ler_restrict,lee_restrict - definition
funenngand notation^\+, definitionfunennpand notation^\- - lemmas and hints
funenng_ge0,funennp_ge0 - lemmas
funenngN,funennpN,funenng_restrict,funennp_restrict,ge0_funenngE,ge0_funennpE,le0_funenngE,le0_funennpE,gt0_funenngM,gt0_funennpM,lt0_funenngM,lt0_funennpM,fune_abse,funenngnnp,add_def_funennpg,funeD_Dnng,funeD_nngD - definition
indicand notation\1_ - lemmas
indicE,indicT,indic0,indic_restrict,restrict_indic,preimage_indic,image_indic,image_indic_sub
- lemmas
- in
trigo.v:- lemmas
acos1,acos0,acosN1,acosN,cosKN,atan0,atan1
- lemmas
- new file
lebesgue_measure.v - new file
lebesgue_integral.v
- in
boolp.v:equality_mixin_of_Type,choice_of_Type-> seeclassicalType
- in
topology.v:- generalize
connected_continuous_connected,continuous_compact - arguments of
subspace - definition
connected_component
- generalize
- in
sequences.v:\sumnotations for extended real numbers now inereal_scope- lemma
ereal_cvg_sub0is now an equivalence
- in
derive.v:- generalize
EVT_max,EVT_min,Rolle,MVT,ler0_derive1_nincr,le0r_derive1_ndecrwith subspace topology - implicits of
cvg_at_rightE,cvg_at_leftE
- generalize
- in
trigo.v:- the
realTypeargument ofpiis implicit - the printed type of
acos,asin,atanisR -> R
- the
- in
esum.v(wascsum.v):- lemma
esum_ge0has now a weaker hypothesis
- lemma
- notation
`I_moved fromcardinality.vtoclassical_sets.v - moved from
classical_types.vtoboolp.v:- definitions
gen_eqandgen_eqMixin, lemmagen_eqP - canonicals
arrow_eqType,arrow_choiceType - definitions
dep_arrow_eqType,dep_arrow_choiceClass,dep_arrow_choiceType - canonicals
Prop_eqType,Prop_choiceType
- definitions
- in
classical_sets.v:- arguments of
preimage [set of f]becomesrange f(the old notation is still available but is displayed as the new one, and will be removed in future versions)
- arguments of
- in
cardinality.v:- definition
card_eqnow uses{bij ... >-> ...} - definition
card_lenow uses{injfun ... >-> ...} - definition
set_finitechanged tofinite_set - definition
card_lePnow usesreflect - definition
card_le0Pnow usesreflect - definition
card_eqPnow usesreflect - statement of theorem
Cantor_Bernstein - lemma
subset_card_ledoes not require finiteness of rhs anymore - lemma
surjective_card_ledoes not require finiteness of rhs anymore and renamed tosurj_card_ge - lemma
card_le_diffdoes not require finiteness of rhs anymore and renamed tocard_le_setD - lemma
card_eq_symnow an equality - lemma
card_eq0now an equality - lemmas
card_le_IIandcard_eq_IInow equalities - lemma
countable_injectiverenamed tocountable_injPand usereflect - lemmas
II0,II1,IIn_eq0moved toclassical_sets.v - lemma
II_recrrenamed toIISand moved toclassical_sets.v - definition
surjectivemoved tofunctions.vand renamedset_surj - definition
set_bijectivemoved tofunctions.vand changed toset_bij - lemma
surjective_idmoved tofunctions.vand renamedsurj_id - lemma
surjective_set0moved tofunctions.vand renamedsurj_set0 - lemma
surjectiveEmoved tofunctions.vand renamedsurjE - lemma
surj_image_eqmoved tofunctions.v - lemma
can_surjectivemoved tofunctions.vand changed tocan_surj - lemma
surjective_compmoved tofunctions.vand renamedsurj_comp - lemma
set_bijective1moved tofunctions.vand renamedeq_set_bijRL - lemma
set_bijective_imagemoved tofunctions.vand renamedinj_bij - lemma
set_bijective_subsetmoved tofunctions.vand changed tobij_subr - lemma
set_bijective_compmoved tofunctions.vand renamedset_bij_comp - definition
inversechanged topinv_, seefunctions.v - lemma
inj_of_bijmoved tofunctions.vand renamed toset_bij_inj - lemma
sur_of_bijmoved tofunctions.vand renamed toset_bij_surj - lemma
sub_of_bijmoved tofunctions.vand renamed toset_bij_sub - lemma
set_bijective_D1moved tofunctions.vand renamed tobij_II_D1 - lemma
injective_left_inversemoved tofunctions.vand changed topinvKV - lemma
injective_right_inversemoved tofunctions.vand changed topinvK - lemmas
image_nat_maximum,fset_nat_maximummoved tomathcomp_extra.v - lemmas
enum0,enum_recrmoved tomathcomp_extra.vand renamed toenum_ord0,enum_ordS - lemma
in_inj_compmoved tomathcomp_extra.v
- definition
- from
cardinality.vtoclassical_sets.v:eq_set0_nil->set_seq_eq0eq_set0_fset0->set_fset_eq0
- in
measure.v:- definition
bigcup2, lemmabigcup2Emoved toclassical_sets.v - mixin
isSemiRingOfSetsandisRingOfSetschanged - types
semiRingOfSetsType,ringOfSetsType,algebraOfSetsType,measurableTypenow pointed types - definition
measurable_funchanged - definition
sigma_sub_additivechanged and renamed tosigma_subadditive - record
AdditiveMeasure.axioms - lemmas
measure_ge0 - record
Measure.axioms - definitions
seqDU,seqD, lemma and hinttrivIset_seqDU, lemmasbigsetU_seqDU,seqDU_bigcup_eq,seqDUE,trivIset_seqD,bigsetU_seqD,setU_seqD,eq_bigsetU_seqD,eq_bigcup_seqD,eq_bigcup_seqD_bigsetUmoved tosequences.v - definition
negligiblePweakened to additive measures - lemma
measure_negligible - definition
caratheodory_measurableandcaratheodory_typeweakened from outer measures to functions - lemma
caratheodory_measure_ge0does take a condition anymore - definitions
measurable_coverandmu_ext, canonicalouter_measure_of_measureweakened tosemiRingOfSetsType
- definition
- in
ereal.v:- lemmas
abse_ge0,gee0_abs,gte0_abs,lee0_abs,lte0_abs,mulN1e,muleN1are generalized fromrealDomainTypetonumDomainType
- lemmas
- moved from
normedtype.vtomathcomp_extra.v:- lemmas
ler_addgt0Pr,ler_addgt0Pl,in_segment_addgt0Pr,in_segment_addgt0Pl,
- lemmas
- moved from
posnum.vtomathcomp_extra.v:- lemma
splitr
- lemma
- moved from
measure.vtosequences.v- lemma
cvg_geometric_series_half - lemmas
realDe,realDed,realMe,nadde_eq0,padde_eq0,adde_ss_eq0,ndadde_eq0,pdadde_eq0,dadde_ss_eq0,mulrpinfty_real,mulpinftyr_real,mulrninfty_real,mulninftyr_real,mulrinfty_real
- lemma
- moved from
topology.vtofunctions.v- section
function_space(defintioncst, definitionfct_zmodMixin, canonicalfct_zmodType, definitionfct_ringMixin, canonicalfct_ringType, canonicalfct_comRingType, definitionfct_lmodMixin, canonicalfct_lmodType, lemmafct_lmodType) - lemmas
addrfunE,opprfunE,mulrfunE,scalrfunE,cstE,exprfunE,compE - definition
fctE
- section
- moved from
classical_sets.vtofunctions.v- definition
patch, notationrestrictandf \_ D
- definition
- in
topology.v:closedC->open_closedCopenC->closed_openCcvg_restrict_dep->cvg_sigL
- in
classical_sets.v:mkset_nil->set_nil
- in
cardinality.v:card_le0x->card_ge0card_eq_sym->card_esymset_finiteP->finite_setPset_finite0->finite_set0set_finite_seq->finite_seqset_finite_countable->finite_set_countablesubset_set_finite->sub_finite_setset_finite_preimage->finite_preimageset_finite_diff->finite_setDcountably_infinite_prod_nat->card_nat2
- file
csum.vrenamed toesum.vwith the following renamings:\csum->\esumcsum->esumcsum0->esum_set0csum_ge0->esum_ge0csum_fset->esum_fsetcsum_image->esum_imagecsum_bigcup->esum_bigcup
- in
ereal.v:lte_subl_addl->lte_subel_addllte_subr_addr->lte_suber_addrlte_dsubl_addl->lte_dsubel_addllte_dsubr_addr->lte_dsuber_addr
- in
ereal.v:- lemmas
esum_fset_ninfty,esum_fset_pinfty - lemmas
desum_fset_pinfty,desum_fset_ninfty - lemmas
big_nat_widenl,big_geq_mkord
- lemmas
- in
csum.v:- lemmas
fsets_img,fsets_ord,fsets_ord_nat,fsets_ord_subset,csum_bigcup_le,le_csum_bigcup
- lemmas
- in
classical_sets.v:- lemma
subsetU - definition
restrict_dep,extend_up, lemmarestrict_depE
- lemma
- in
cardinality.v:- lemma
surjective_image,surjective_image_eq0 - lemma
surjective_right_inverse, - lemmas
card_le_surj,card_eq00 - lemmas
card_eqTT,card_eq_II,card_eq_le,card_leP - lemmas
set_bijective_inverse,countable_trans,set_bijective_U1,set_bijective_cyclic_shift,set_bijective_cyclic_shift_simple,set_finite_bijective,subset_set_finite_card_le,injective_set_finite_card_le,injective_set_finite,injective_card_le,surjective_set_finite_card_le,set_finite_inter_set0_union,ex_in_D. - definitions
min_of_D,min_of_D_seq,infsub_enum - lemmas
min_of_D_seqE,increasing_infsub_enum,sorted_infsub_enum,injective_infsub_enum,subset_infsub_enum,infinite_nat_subset_countable - definition
enumeration - lemmas
enumeration_id,enumeration_set0,ex_enum_notin - defnitions
min_of_e,min_of_e_seq,smallest_of_e,enum_wo_rep - lemmas
enum_wo_repE,min_of_e_seqE,smallest_of_e_notin_enum_wo_rep,injective_enum_wo_rep,surjective_enum_wo_rep,set_bijective_enum_wo_rep,enumeration_enum_wo_rep,countable_enumeration - definition
nat_of_pair - lemmas
nat_of_pair_inj,countable_prod_nat
- lemma
- in
measure.v:- definition
diff_fsets - lemmas
semiRingOfSets_measurableI,semiRingOfSets_measurableD,semiRingOfSets_diff_fsetsE,semiRingOfSets_diff_fsets_disjoint - definition
uncurry
- definition
- in
sequences.v:- lemmas
leq_fact,prod_rev,fact_split(now in MathComp)
- lemmas
- in
boolp.v- module BoolQuant with notations
`[forall x P]and`[exists x P](subsumed by`[< >]) - definition
xchooseb - lemmas
existsPP,forallPP,existsbP,forallbP,forallbE,existsp_asboolP,forallp_asboolP,xchoosebP,imsetbP
- module BoolQuant with notations
- in
normedtype.v:- lemmas
nbhs_pinfty_gt_pos,nbhs_pinfty_ge_pos,nbhs_ninfty_lt_pos,nbhs_ninfty_le_pos
- lemmas
- in
topology.v:- definitions
kolmogorov_space,accessible_space - lemmas
accessible_closed_set1,accessible_kolmogorov - lemma
filter_pair_set - definition
prod_topo_apply - lemmas
prod_topo_applyE,prod_topo_apply_continuous,hausdorff_product
- definitions
- in
ereal.v:- lemmas
lee_pemull,lee_nemul,lee_pemulr,lee_nemulr - lemma
fin_numM - definition
mule_def, notationx *? y - lemma
mule_defC - notations
\*inereal_scope, andereal_dual_scope - lemmas
mule_def_fin,mule_def_neq0_infty,mule_def_infty_neq0,neq0_mule_def - notation
\-inereal_scopeandereal_dual_scope - lemma
fin_numB - lemmas
mule_eq_pinfty,mule_eq_ninfty - lemmas
fine_eq0,abse_eq0
- lemmas
- in
sequences.v:- lemmas
ereal_cvgM_gt0_pinfty,ereal_cvgM_lt0_pinfty,ereal_cvgM_gt0_ninfty,ereal_cvgM_lt0_ninfty,ereal_cvgM
- lemmas
- in
topology.v:- renamed and generalized
setC_subset_set1Cimplication to equivalencesubsetC1
- renamed and generalized
- in
ereal.v:- lemmas
ereal_sup_gt,ereal_inf_ltnow useexists2
- lemmas
- notation
\*moved fromrealseq.vtotopology.v
- in `topology.v:
hausdorff->hausdorff_space
- in
realseq.v:- notation
\-
- notation
- add
.dir-locals.elfor company-coq symbols
- in
boolp.v:- lemmas
not_True,not_False
- lemmas
- in
classical_sets.v:- lemma
setDIr - lemmas
setMT,setTM,setMI - lemmas
setSM,setM_bigcupr,setM_bigcupl - lemmas
cover_restr,eqcover_r - lemma
notin_set
- lemma
- in
reals.v:- lemma
has_ub_lbN
- lemma
- in
ereal.v:- lemma
onee_eq0 - lemma
EFinB - lemmas
mule_eq0,mule_lt0_lt0,mule_gt0_lt0,mule_lt0_gt0,pmule_rge0,pmule_lge0,nmule_lge0,nmule_rge0,pmule_rgt0,pmule_lgt0,nmule_lgt0,nmule_rgt0 - lemmas
muleBr,muleBl - lemma
eqe_absl - lemma
lee_pmul - lemmas
fin_numElt,fin_numPlt
- lemma
- in
topology.v- lemmas
cstE,compE,opprfunE,addrfunE,mulrfunE,scalrfunE,exprfunE - multi-rule
fctE - lemmas
within_interior,within_subset,withinE,fmap_within_eq - definitions
subspace,incl_subspace. - canonical instances of
pointedType,filterType,topologicalType,uniformTypeandpseudoMetricTypeonsubspace. - lemmas
nbhs_subspaceP,nbhs_subspace_in,nbhs_subspace_out,subspace_cvgP,subspace_continuousP,subspace_eq_continuous,nbhs_subspace_interior,nbhs_subspace_ex,incl_subspace_continuous,open_subspace1out,open_subspace_out,open_subspaceT,open_subspaceIT,open_subspaceTI,closed_subspaceT,open_subspaceP,open_subspaceW,subspace_hausdorff, andcompact_subspaceIP.
- lemmas
- in
normedtype.v- lemmas
continuous_shift,continuous_withinNshiftx - lemmas
bounded_fun_has_ubound,bounded_funN,bounded_fun_has_lbound,bounded_funD
- lemmas
- in
derive.v- lemmas
derive1_comp,derivable_cst,derivable_id, trigger_derive` - instances
is_derive_id,is_derive_Nid
- lemmas
- in
sequences.v:- lemmas
cvg_series_bounded,cvg_to_0_linear,lim_cvg_to_0_linear. - lemma
cvg_sub0 - lemma
cvg_zero - lemmas
ereal_cvg_abs0,ereal_cvg_sub0,ereal_squeeze - lemma
ereal_is_cvgD
- lemmas
- in
measure.v:- hints for
measurable0andmeasurableT
- hints for
- file
realfun.v:- lemma
is_derive1_caratheodory,is_derive_0_is_cst - instance
is_derive1_comp - lemmas
is_deriveV,is_derive_inverse
- lemma
- new file
nsatz_realType - new file
exp.v- lemma
normr_nneg(hint) - definitions
pseries,pseries_diffs - facts
is_cvg_pseries_inside_norm,is_cvg_pseries_inside - lemmas
pseries_diffsN,pseries_diffs_inv_fact,pseries_diffs_sumE,pseries_diffs_equiv,is_cvg_pseries_diffs_equiv,pseries_snd_diffs - lemmas
expR0,expR_ge1Dx,exp_coeffE,expRE - instance
is_derive_expR - lemmas
derivable_expR,continuous_expR,expRxDyMexpx,expRxMexpNx_1 - lemmas
pexpR_gt1,expR_gt0,expRN,expRD,expRMm - lemmas
expR_gt1,expR_lt1,expRB,ltr_expR,ler_expR,expR_inj,expR_total_gt1,expR_total - definition
ln - fact
ln0 - lemmas
expK,lnK,ln1,lnM,ln_inj,lnV,ln_div,ltr_ln,ler_ln,lnX - lemmas
le_ln1Dx,ln_sublinear,ln_ge0,ln_gt0 - lemma
continuous_ln - instance
is_derive1_ln - definition
exp_fun, notation`^ - lemmas
exp_fun_gt0,exp_funr1,exp_funr0,exp_fun1,ler_exp_fun,exp_funD,exp_fun_inv,exp_fun_mulrn - definition
riemannR, lemmasriemannR_gt0,dvg_riemannR
- lemma
- new file
trigo.v- lemmas
sqrtvR,eqr_div,big_nat_mul,cvg_series_cvg_series_group,lt_sum_lim_series - definitions
periodic,alternating - lemmas
periodicn,alternatingn - definition
sin_coeff - lemmas
sin_coeffE,sin_coeff_even,is_cvg_series_sin_coeff - definition
sin - lemmas
sinE - definition
sin_coeff' - lemmas
sin_coeff'E,cvg_sin_coeff',diffs_sin,series_sin_coeff0,sin0 - definition
cos_coeff - lemmas
cos_ceff_2_0,cos_coeff_2_2,cos_coeff_2_4,cos_coeffE,is_cvg_series_cos_coeff - definition
cos - lemma
cosE - definition
cos_coeff' - lemmas
cos_coeff'E,cvg_cos_coeff',diffs_cos,series_cos_coeff0,cos0 - instance
is_derive_sin - lemmas
derivable_sin,continuous_sin,is_derive_cos,derivable_cos,continuous_cos - lemmas
cos2Dsin2,cos_max,cos_geN1,cos_le1,sin_max,sin_geN1,sin_le1 - fact
sinD_cosD - lemmas
sinD,cosD - lemmas
sin2cos2,cos2sin2,sin_mulr2n,cos_mulr2n - fact
sinN_cosN - lemmas
sinN,cosN - lemmas
sin_sg,cos_sg,cosB,sinB - lemmas
norm_cos_eq1,norm_sin_eq1,cos1sin0,sin0cos1,cos_norm - definition
pi - lemmas
pihalfE,cos2_lt0,cos_exists - lemmas
sin2_gt0,cos_pihalf_uniq,pihalf_02_cos_pihalf,pihalf_02,pi_gt0,pi_ge0 - lemmas
sin_gt0_pihalf,cos_gt0_pihalf,cos_pihalf,sin_pihalf,cos_ge0_pihalf,cospi,sinpi - lemmas
cos2pi,sin2pi,sinDpi,cosDpi,sinD2pi,cosD2pi - lemmas
cosDpihalf,cosBpihalf,sinDpihalf,sinBpihalf,sin_ge0_pi - lemmas
ltr_cos,ltr_sin,cos_inj,sin_inj - definition
tan - lemmas
tan0,tanpi,tanN,tanD,tan_mulr2n,cos2_tan2 - lemmas
tan_pihalf,tan_piquarter,tanDpi,continuous_tan - lemmas
is_derive_tan,derivable_tan,ltr_tan,tan_inj - definition
acos - lemmas
acos_def,acos_ge0,acos_lepi,acosK,acos_gt0,acos_ltpi - lemmas
cosK,sin_acos,continuous_acos,is_derive1_acos - definition
asin - lemmas
asin_def,asin_geNpi2,asin_lepi2,asinK,asin_ltpi2,asin_gtNpi2 - lemmas
sinK,cos_asin,continuous_asin,is_derive1_asin - definition
atan - lemmas
atan_def,atan_gtNpi2,atan_ltpi2,atanK,tanK - lemmas
continuous_atan,cos_atan - instance
is_derive1_atan
- lemmas
- in
normedtype.v:nbhs_minfty_ltrenamed tonbhs_ninfty_lt_posand changed to not use{posnum R}nbhs_minfty_lerenamed tonbhs_ninfty_le_posand changed to not use{posnum R}
- in
sequences.v:- lemma
is_cvg_ereal_nneg_natsum: remove superfluousPparameter - statements of lemmas
nondecreasing_cvg,nondecreasing_is_cvg,nonincreasing_cvg,nonincreasing_is_cvgusehas_{l,u}boundpredicates instead of requiring an additional variable - statement of lemma
S1_supuseuboundinstead of requiring an additional variable
- lemma
- in
normedtype.v:nbhs_minfty_lt_real->nbhs_ninfty_ltnbhs_minfty_le_real->nbhs_ninfty_le
- in
sequences.v:cvgNminfty->cvgNninftycvgPminfty->cvgPninftyler_cvg_minfty->ler_cvg_ninftynondecreasing_seq_ereal_cvg->ereal_nondecreasing_cvg
- in
normedtype.v:nbhs_pinfty_gt->nbhs_pinfty_gt_posnbhs_pinfty_ge->nbhs_pinfty_ge_posnbhs_pinfty_gt_real->nbhs_pinfty_gtnbhs_pinfty_ge_real->nbhs_pinfty_ge
- in
measure.v:measure_bigcup->measure_bigsetU
- in
ereal.v:mulrEDr->muleDrmulrEDl->muleDldmulrEDr->dmuleDrdmulrEDl->dmuleDlNEFin->EFinNaddEFin->EFinDmulEFun->EFinMdaddEFin->dEFinDdsubEFin->dEFinB
- in
ereal.v:- lemma
subEFin
- lemma
- in
Makefile.common- add
docanddoc-cleantargets
- add
- in
boolp.v:- lemmas
orA,andA
- lemmas
- in
classical_sets.v- lemma
setC_inj, - lemma
setD1K, - lemma
subTset, - lemma
setUidPr,setUidlandsetUidr, - lemma
setIidPr,setIidlandsetIidr, - lemma
set_fset0,set_fset1,set_fsetI,set_fsetU, - lemma
bigcap_inf,subset_bigcup_r,subset_bigcap_r,eq_bigcupl,eq_bigcapl,eq_bigcup,eq_bigcap,bigcupU,bigcapI,bigcup_const,bigcap_const,bigcapIr,bigcupUr,bigcap_set0,bigcap_set1,bigcap0,bigcapT,bigcupT,bigcapTP,setI_bigcupl,setU_bigcapl,bigcup_mkcond,bigcap_mkcond,setC_bigsetU,setC_bigsetI,bigcap_set_cond,bigcap_set,bigcap_split,bigcap_mkord,subset_bigsetI,subset_bigsetI_cond,bigcap_image - lemmas
bigcup_setU1,bigcap_setU1,bigcup_setU,bigcap_setU,bigcup_fset,bigcap_fset,bigcup_fsetU1,bigcap_fsetU1,bigcup_fsetD1,bigcap_fsetD1, - definition
mem_set : A u -> u \in A - lemmas
in_setPandin_set2P - lemma
forall_sig - definition
patch, notationrestrictandf \_ D, definitionsrestrict_depandextend_dep, with lemmasrestrict_depE,fun_eq_inP,extend_restrict_dep,extend_depK,restrict_extend_dep,restrict_dep_restrict,restrict_dep_setT - lemmas
setUS,setSU,setUSS,setUCA,setUAC,setUACA,setUUl,setUUr - lemmas
bigcup_image,bigcup_of_set1,set_fset0,set_fset1,set_fsetI,set_fsetU,set_fsetU1,set_fsetD,set_fsetD1, - notation
[set` i] - notations
set_itv,`[a, b],`]a, b],`[a, b[,`]a, b[,`]-oo, b],`]-oo, b[,`[a, +oo],`]a, +oo],`]-oo, +oo[ - lemmas
setDDl,setDDr
- lemma
- in
topology.v:- lemma
fmap_comp - definition
finSubCover - notations
{uniform` A -> V }and{uniform U -> V}and their canonical structures of uniform type. - definition
uniform_funto cast into - notations
{uniform A, F --> f }and{uniform, F --> f} - lemma
uniform_cvgE - lemma
uniform_nbhs - notation
{ptws U -> V}and its canonical structure of topological type, - definition
ptws_fun - notation
{ptws F --> f } - lemma
ptws_cvgE - lemma
ptws_uniform_cvg - lemma
cvg_restrict_dep - lemma
eq_in_close - lemma
hausdorrf_close_eq_in - lemma
uniform_subset_nbhs - lemma
uniform_subset_cvg - lemma
uniform_restrict_cvg - lemma
cvg_uniformU - lemma
cvg_uniform_set0 - notation
{family fam, U -> V}and its canonical structure of topological type - notation
{family fam, F --> f} - lemma
fam_cvgP - lemma
fam_cvgE - definition
compactly_in - lemma
family_cvg_subset - lemma
family_cvg_finite_covers - lemma
compact_cvg_within_compact - lemma
le_bigmax - definition
monotonous - lemma
and_prop_in - lemmas
mem_inc_segment,mem_dec_segment - lemmas
ltr_distlC,ler_distlC - lemmas
subset_ball_prop_in_itv,subset_ball_prop_in_itvcc - lemma
dense_rat
- lemma
- in
normedtype.v:- lemma
is_intervalPlt - lemma
mule_continuous - lemmas
ereal_is_cvgN,ereal_cvgZr,ereal_is_cvgZr,ereal_cvgZl,ereal_is_cvgZl,ereal_limZr,ereal_limZl,ereal_limN - lemma
bound_itvE - lemmas
nearN,near_in_itv - lemmas
itvxx,itvxxP,subset_itv_oo_cc - lemma
at_right_in_segment - notations
f @`[a, b],g @`]a , b[ - lemmas
mono_mem_image_segment,mono_mem_image_itvoo,mono_surj_image_segment,inc_segment_image,dec_segment_image,inc_surj_image_segment,dec_surj_image_segment,inc_surj_image_segmentP,dec_surj_image_segmentP,mono_surj_image_segmentP
- lemma
- in
reals.v:- lemmas
floor1,floor_neq0 - lemma
int_lbound_has_minimum - lemma
rat_in_itvoo
- lemmas
- in
ereal.v:- notation
x +? yforadde_def x y - lemmas
ge0_adde_def,onee_neq0,mule0,mul0e - lemmas
mulrEDr,mulrEDl,ge0_muleDr,ge0_muleDl - lemmas
ge0_sume_distrl,ge0_sume_distrr - lemmas
mulEFin,mule_neq0,mule_ge0,muleA - lemma
muleE - lemmas
muleN,mulNe,muleNN,gee_pmull,lee_mul01Pr - lemmas
lte_pdivr_mull,lte_pdivr_mulr,lte_pdivl_mull,lte_pdivl_mulr,lte_ndivl_mulr,lte_ndivl_mull,lte_ndivr_mull,lte_ndivr_mulr - lemmas
lee_pdivr_mull,lee_pdivr_mulr,lee_pdivl_mull,lee_pdivl_mulr,lee_ndivl_mulr,lee_ndivl_mull,lee_ndivr_mull,lee_ndivr_mulr - lemmas
mulrpinfty,mulrninfty,mulpinftyr,mulninftyr,mule_gt0 - definition
mulrinfty - lemmas
mulN1e,muleN1 - lemmas
mule_ninfty_pinfty,mule_pinfty_ninfty,mule_pinfty_pinfty - lemmas
mule_le0_ge0,mule_ge0_le0,pmule_rle0,pmule_lle0,nmule_lle0,nmule_rle0 - lemma
sube0 - lemmas
adde_le0,sume_le0,oppe_ge0,oppe_le0,lte_opp,gee_addl,gee_addr,lte_addr,gte_subl,gte_subr,lte_le_sub,lee_sum_npos_subset,lee_sum_npos,lee_sum_npos_ord,lee_sum_npos_natr,lee_sum_npos_natl,lee_sum_npos_subfset,lee_opp,le0_muleDl,le0_muleDr,le0_sume_distrl,le0_sume_distrr,adde_defNN,minEFin,mine_ninftyl,mine_ninftyr,mine_pinftyl,mine_pinftyr,oppe_max,oppe_min,mineMr,mineMl - definitions
dual_adde - notations for the above in scope
ereal_dual_scopedelimited bydE - lemmas
dual_addeE,dual_sumeE,dual_addeE_def,daddEFin,dsumEFin,dsubEFin,dadde0,dadd0e,daddeC,daddeA,daddeAC,daddeCA,daddeACA,doppeD,dsube0,dsub0e,daddeK,dfin_numD,dfineD,dsubeK,dsube_eq,dsubee,dadde_eq_pinfty,daddooe,dadde_Neq_pinfty,dadde_Neq_ninfty,desum_fset_pinfty,desum_pinfty,desum_fset_ninfty,desum_ninfty,dadde_ge0,dadde_le0,dsume_ge0,dsume_le0,dsube_lt0,dsubre_le0,dsuber_le0,dsube_ge0,lte_dadd,lee_daddl,lee_daddr,gee_daddl,gee_daddr,lte_daddl,lte_daddr,gte_dsubl,gte_dsubr,lte_dadd2lE,lee_dadd2l,lee_dadd2lE,lee_dadd2r,lee_dadd,lte_le_dadd,lee_dsub,lte_le_dsub,lee_dsum,lee_dsum_nneg_subset,lee_dsum_npos_subset,lee_dsum_nneg,lee_dsum_npos,lee_dsum_nneg_ord,lee_dsum_npos_ord,lee_dsum_nneg_natr,lee_dsum_npos_natr,lee_dsum_nneg_natl,lee_dsum_npos_natl,lee_dsum_nneg_subfset,lee_dsum_npos_subfset,lte_dsubl_addr,lte_dsubl_addl,lte_dsubr_addr,lee_dsubr_addr,lee_dsubl_addr,ge0_dsume_distrl,dmulrEDr,dmulrEDl,dge0_mulreDr,dge0_mulreDl,dle0_mulreDr,dle0_mulreDl,ge0_dsume_distrr,le0_dsume_distrl,le0_dsume_distrr,lee_abs_dadd,lee_abs_dsum,lee_abs_dsub,dadde_minl,dadde_minr,lee_dadde,lte_spdaddr - lemmas
abse0,abse_ge0,lee_abs,abse_id,lee_abs_add,lee_abs_sum,lee_abs_sub,gee0_abs,gte0_abs,lee_abs,lte0_abs,abseM,lte_absl,eqe_absl - notations
maxe,mine - lemmas
maxEFin,adde_maxl,adde_maxr,maxe_pinftyl,maxe_pinftyr,maxe_ninftyl,maxe_ninftyr - lemmas
sub0e,lee_wpmul2r,mule_ninfty_ninfty - lemmas
sube_eqlte_pmul2r,lte_pmul2l,lte_nmul2l,lte_nmul2r,mule_le0,pmule_llt0,pmule_rlt0,nmule_llt0,nmule_rlt0,mule_lt0 - lemmas
maxeMl,maxeMr - lemmas
lte_0_pinfty,lte_ninfty_0,lee_0_pinfty,lee_ninfty_0,oppe_gt0,oppe_lt0 - lemma
telescope_sume - lemmas
lte_add_pinfty,lte_sum_pinfty
- notation
- in
cardinality.v:- definition
nat_of_pair, lemmanat_of_pair_inj - lemmas
surjectiveE,surj_image_eq,can_surjective
- definition
- in
sequences.v:- lemmas
lt_lim,nondecreasing_dvg_lt,ereal_lim_sum - lemmas
ereal_nondecreasing_opp,ereal_nondecreasing_is_cvg,ereal_nonincreasing_cvg,ereal_nonincreasing_is_cvg
- lemmas
- file
realfun.v:- lemmas
itv_continuous_inj_le,itv_continuous_inj_ge,itv_continuous_inj_mono - lemmas
segment_continuous_inj_le,segment_continuous_inj_ge,segment_can_le,segment_can_ge,segment_can_mono - lemmas
segment_continuous_surjective,segment_continuous_le_surjective,segment_continuous_ge_surjective - lemmas
continuous_inj_image_segment,continuous_inj_image_segmentP,segment_continuous_can_sym,segment_continuous_le_can_sym,segment_continuous_ge_can_sym,segment_inc_surj_continuous,segment_dec_surj_continuous,segment_mono_surj_continuous - lemmas
segment_can_le_continuous,segment_can_ge_continuous,segment_can_continuous - lemmas
near_can_continuousAcan_sym,near_can_continuous,near_continuous_can_sym - lemmas
exp_continuous,sqr_continuous,sqrt_continuous.
- lemmas
- in
measure.v:- definition
seqDU - lemmas
trivIset_seqDU,bigsetU_seqDU,seqDU_bigcup_eq,seqDUE - lemmas
bigcup_measurable,bigcap_measurable,bigsetI_measurable
- definition
- in
classical_sets.vsetU_bigcup->bigcupUland reversedsetI_bigcap->bigcapIland reversed- removed spurious disjunction in
bigcup0P bigcup_ord->bigcup_mkordand reversedbigcup_of_set1->bigcup_imset1bigcupD1->bigcup_setD1andbigcapD1->bigcap_setD1and rephrased usingP `\ xinstead ofP `&` ~` [set x]- order of arguments for
setIS,setSI,setUS,setSU,setSD,setDS - generalize lemma
perm_eq_trivIset
- in
topology.v:- replace
closed_cvg_locandclosed_cvgby a more general lemmaclosed_cvg
- replace
- in
normedtype.v:- remove useless parameter from lemma
near_infty_natSinv_lt - definition
is_interval - the following lemmas have been generalized to
orderType, renamed as follows, moved out of the moduleBigmaxBigminrtotopology.v:bigmaxr_mkcond->bigmax_mkcondbigmaxr_split->bigmax_splitbigmaxr_idl->bigmax_idlbigmaxrID->bigmaxIDbigmaxr_seq1->bigmax_seq1bigmaxr_pred1_eq->bigmax_pred1_eqbigmaxr_pred1->bigmax_pred1bigmaxrD1->bigmaxD1ler_bigmaxr_cond->ler_bigmax_condler_bigmaxr->ler_bigmaxbigmaxr_lerP->bigmax_lerPbigmaxr_sup->bigmax_supbigmaxr_ltrP->bigmax_ltrPbigmaxr_gerP->bigmax_gerPbigmaxr_eq_arg->bigmax_eq_argbigmaxr_gtrP->bigmax_gtrPeq_bigmaxr->eq_bigmax- module
BigmaxBigminr->Bigminr
- remove useless parameter from lemma
- in
ereal.v:- change definition
mulesuch that 0 x oo = 0 addenow defined usingnosimplandadde_subdefmulenow defined usingnosimplandmule_subdef- lemmas
lte_addl,lte_subl_addr,lte_subl_addl,lte_subr_addr,lte_subr_addr,lte_subr_addr,lb_ereal_inf_adherent oppeDto usefin_num- weaken
realDomainTypetonumDomainTypeinmule_ninfty_pinfty,mule_pinfty_ninfty,mule_pinfty_pinfty,mule_ninfty_ninfty,mule_neq0,mule_ge0,mule_le0,mule_gt0,mule_le0_ge0,mule_ge0_le0
- change definition
- in
reals.v:- generalize from
realTypetorealDomainTypelemmashas_ub_image_norm,has_inf_supN
- generalize from
- in
sequences.v:- generalize from
realTypetorealFieldTypelemmascvg_has_ub,cvg_has_sup,cvg_has_inf - change the statements of
cvgPpinfty,cvgPminfty,cvgPpinfty_lt - generalize
nondecreasing_seqP,nonincreasing_seqP,increasing_seqP,decreasing_seqPto equivalences - generalize
lee_lim,ereal_cvgD_pinfty_fin,ereal_cvgD_ninfty_fin,ereal_cvgD,ereal_limD,ereal_pseries0,eq_ereal_pseriesfromrealTypetorealFieldType - lemma
ereal_pseries_pred0moved fromcsum.v, minor generalization
- generalize from
- in
landau.v:- lemma
cvg_shiftrenamed tocvg_comp_shiftand moved tonormedtype.v
- lemma
- in
measure.v:- lemmas
measureDI,measureD,sigma_finiteP
- lemmas
exist_congr->eq_existand moved fromclasssical_sets.vtoboolp.vpredeqPmoved fromclasssical_sets.vtoboolp.v- moved from
landau.vtonormedtype.v:- lemmas
comp_shiftK,comp_centerK,shift0,center0,near_shift,cvg_shift
- lemmas
- lemma
exists2Pmoved fromtopology.vtoboolp.v - move from
sequences.vtonormedtype.vand generalize fromnattoT : topologicalType- lemmas
ereal_cvgN
- lemmas
- in
classical_sets.veqbigcup_r->eq_bigcupreqbigcap_r->eq_bigcaprbigcup_distrr->setI_bigcuprbigcup_distrl->setI_bigcuplbigcup_refl->bigcup_splitnsetMT->setMTT
- in
ereal.v:adde->adde_subdefmule->mule_subdefreal_of_extended->finereal_of_extendedN->fineNreal_of_extendedD->fineDEFin_real_of_extended->fineKreal_of_extended_expand->fine_expand
- in
sequences.v:nondecreasing_seq_ereal_cvg->nondecreasing_ereal_cvg
- in
topology.v:nbhs'->dnbhsnbhsE'->dnbhsnbhs'_filter->dnbhs_filternbhs'_filter_on->dnbhs_filter_onnbhs_nbhs'->nbhs_dnbhsProper_nbhs'_regular_numFieldType->Proper_dnbhs_regular_numFieldTypeProper_nbhs'_numFieldType->Proper_dnbhs_numFieldTypeereal_nbhs'->ereal_dnbhsereal_nbhs'_filter->ereal_dnbhs_filterereal_nbhs'_le->ereal_dnbhs_leereal_nbhs'_le_finite->ereal_dnbhs_le_finiteProper_nbhs'_numFieldType->Proper_dnbhs_numFieldTypeProper_nbhs'_realType->Proper_dnbhs_realTypenbhs'0_lt->dnbhs0_ltnbhs'0_le->dnbhs0_lecontinuity_pt_nbhs'->continuity_pt_dnbhs
- in
measure.v:measure_additive2->measureUmeasure_additive->measure_bigcup
- in
boolp.v:- definition
PredType - local notation
predOfType
- definition
- in
nngnum.v:- module
BigmaxrNonnegcontaining the following lemmas:bigmaxr_mkcond,bigmaxr_split,bigmaxr_idl,bigmaxrID,bigmaxr_seq1,bigmaxr_pred1_eq,bigmaxr_pred1,bigmaxrD1,ler_bigmaxr_cond,ler_bigmaxr,bigmaxr_lerP,bigmaxr_sup,bigmaxr_ltrP,bigmaxr_gerP,bigmaxr_gtrP
- module
- in
sequences.v:- lemma
closed_seq
- lemma
- in
normedtype.v:- lemma
is_intervalPle
- lemma
- in
topology.v:- lemma
continuous_cst - definition
cvg_to_locally
- lemma
- in
csum.v:- lemma
ub_ereal_sup_adherent_img
- lemma
- in
classical_sets.v:- lemmas
bigcup_image,bigcup_of_set1 - lemmas
bigcupD1,bigcapD1
- lemmas
- in
boolp.v:- definitions
equality_mixin_of_Type,choice_of_Type
- definitions
- in
normedtype.v:- lemma
cvg_bounded_real - lemma
pseudoMetricNormedZModType_hausdorff
- lemma
- in
sequences.v:- lemmas
seriesN,seriesD,seriesZ,is_cvg_seriesN,lim_seriesN,is_cvg_seriesZ,lim_seriesZ,is_cvg_seriesD,lim_seriesD,is_cvg_seriesB,lim_seriesB,lim_series_le,lim_series_norm
- lemmas
- in
measure.v:- HB.mixin
AlgebraOfSets_from_RingOfSets - HB.structure
AlgebraOfSetsand notationalgebraOfSetsType - HB.instance
T_isAlgebraOfSetsin HB.buildersisAlgebraOfSets - lemma
bigcup_set_cond - definition
measurable_fun - lemma
adde_undef_nneg_series - lemma
adde_def_nneg_series - lemmas
cvg_geometric_series_half,epsilon_trick - definition
measurable_cover - lemmas
cover_measurable,cover_subset - definition
mu_ext - lemmas
le_mu_ext,mu_ext_ge0,mu_ext0,measurable_uncurry,mu_ext_sigma_subadditive - canonical
outer_measure_of_measure
- HB.mixin
- in
ereal.v, definitionadde_undefchanged toadde_def- consequently, the following lemmas changed:
- in
ereal.v,adde_undefCrenamed toadde_defC,fin_num_adde_undefrenamed tofin_num_adde_def - in
sequences.v,ereal_cvgDandereal_limDnow use hypotheses withadde_def
- in
- consequently, the following lemmas changed:
- in
sequences.v:- generalize
{in,de}creasing_seqP,non{in,de}creasing_seqPfromnumDomainTypetoporderType
- generalize
- in
normedtype.v:- generalized from
normedModTypetopseudoMetricNormedZmodType:nbhs_le_nbhs_normnbhs_norm_le_nbhsnbhs_nbhs_normnbhs_normPfilter_from_norm_nbhsnbhs_normEfilter_from_normEnear_nbhs_normnbhs_norm_ball_normnbhs_ball_normball_norm_decball_norm_symball_norm_lecvg_distPcvg_distnbhs_norm_balldominated_bystrictly_dominated_bysub_dominatedlsub_dominatedrdominated_by1strictly_dominated_by1ex_dom_boundex_strict_dom_boundbounded_nearboundedEsub_boundedrsub_boundedlex_boundex_strict_boundex_strict_bound_gt0norm_hausdorffnorm_closeEnorm_close_eqnorm_cvg_uniquenorm_cvg_eqnorm_lim_idnorm_cvg_limnorm_lim_near_cstnorm_lim_cstnorm_cvgi_uniquenorm_cvgi_map_limdistm_lt_splitdistm_lt_splitrdistm_lt_splitlnormm_leWnormm_lt_splitcvg_distWcontinuous_cvg_distadd_continuous
- generalized from
- in
measure.v:- generalize lemma
eq_bigcupB_of - HB.mixin
Measurable_from_ringOfSetschanged toMeasurable_from_algebraOfSets - HB.instance
T_isRingOfSetsbecomesT_isAlgebraOfSetsin HB.buildersisMeasurable - lemma
measurableCnow applies toalgebraOfSetsTypeinstead ofmeasureableType
- generalize lemma
- moved from
normedtype.vtoreals.v:- lemmas
inf_lb_strict,sup_ub_strict
- lemmas
- moved from
sequences.vtoreals.v:- lemma
has_ub_image_norm
- lemma
- in
classical_sets.v:bigcup_mkset->bigcup_setbigsetU->bigcupbigsetI->bigcaptrivIset_bigUI->trivIset_bigsetUI
- in
measure.v:isRingOfSets->isAlgebraOfSetsB_of->seqDtrivIset_B_of->trivIset_seqDUB_of->setU_seqDbigUB_of->bigsetU_seqDeq_bigsetUB_of->eq_bigsetU_seqDeq_bigcupB_of->eq_bigcup_seqDeq_bigcupB_of_bigsetU->eq_bigcup_seqD_bigsetU
- in
nngnum.v:- lemma
filter_andb
- lemma
- in
sequences.v:- lemma
dvg_harmonic
- lemma
- in
classical_sets.v:- definitions
image,image2
- definitions
- in
classical_sets.v- notations
[set E | x in A]and[set E | x in A & y in B]now use definitionsimageandimage2resp. - notation
f @` Anow uses the definitionimage - the order of arguments of
imagehas changed compared to version 0.3.7: it is nowimage A f(it used to beimage f A)
- notations
- in
sequences.v:- lemma
iter_addr
- lemma
- file
reals.v:- lemmas
le_floor,le_ceil
- lemmas
- in
ereal.v:- lemmas
big_nat_widenl,big_geq_mkord - lemmas
lee_sum_nneg_natr,lee_sum_nneg_natl - lemmas
ereal_sup_gt,ereal_inf_lt - notation
0/1for0%R%:E/1%R:%Einereal_scope
- lemmas
- in
classical_sets.v- lemma
subset_bigsetU_cond - lemma
eq_imagel
- lemma
- in
sequences.v:- notations
\sum_(i <oo) F i - lemmas
ereal_pseries_sum_nat,lte_lim - lemmas
is_cvg_ereal_nneg_natsum_cond,is_cvg_ereal_nneg_natsum - lemma
ereal_pseriesD,ereal_pseries0,eq_ereal_pseries - lemmas
leq_fact,prod_rev,fact_split - definition
exp_coeff - lemmas
exp_coeff_ge0,series_exp_coeff0,is_cvg_series_exp_coeff_pos,normed_series_exp_coeff,is_cvg_series_exp_coeff,cvg_exp_coeff - definition
expR
- notations
- in
measure.v:- lemma
eq_bigcupB_of_bigsetU - definitions
caratheodory_type - definition
caratheodory_measureand lemmacaratheodory_measure_complete - internal definitions and lemmas that may be deprecated and hidden in the future:
caratheodory_measurable, notation... .-measurable,le_caratheodory_measurable,outer_measure_bigcup_lim,caratheodory_measurable_{set0,setC,setU_le,setU,bigsetU,setI,setD}disjoint_caratheodoryIU,caratheodory_additive,caratheodory_lim_lee,caratheodory_measurable_trivIset_bigcup,caratheodory_measurable_bigcup
- definition
measure_is_complete
- lemma
- file
csum.v:- lemmas
ereal_pseries_pred0,ub_ereal_sup_adherent_img - definition
fsets, lemmasfsets_set0,fsets_self,fsetsP,fsets_img - definition
fsets_ord, lemmasfsets_ord_nat,fsets_ord_subset - definition
csum, lemmascsum0,csumE,csum_ge0,csum_fsetcsum_image,ereal_pseries_csum,csum_bigcup - notation
\csum_(i in S) a i
- lemmas
- file
cardinality.v- lemmas
in_inj_comp,enum0,enum_recr,eq_set0_nil,eq_set0_fset0,image_nat_maximum,fset_nat_maximum - defintion
surjective, lemmassurjective_id,surjective_set0,surjective_image,surjective_image_eq0,surjective_comp - definition
set_bijective, - lemmas
inj_of_bij,sur_of_bij,set_bijective1,set_bijective_image,set_bijective_subset,set_bijective_comp - definition
inverse - lemmas
injective_left_inverse,injective_right_inverse,surjective_right_inverse, - notation
`I_n - lemmas
II0,II1,IIn_eq0,II_recr - lemmas
set_bijective_D1,pigeonhole,Cantor_Bernstein - definition
card_le, notation_ #<= _ - lemmas
card_le_surj,surj_card_le,card_lexx,card_le0x,card_le_trans,card_le0P,card_le_II - definition
card_eq, notation_ #= _ - lemmas
card_eq_sym,card_eq_trans,card_eq00,card_eqP,card_eqTT,card_eq_II,card_eq_le,card_eq_ge,card_leP - lemma
set_bijective_inverse - definition
countable - lemmas
countable0,countable_injective,countable_trans - definition
set_finite - lemmas
set_finiteP,set_finite_seq,set_finite_countable,set_finite0 - lemma
set_finite_bijective - lemmas
subset_set_finite,subset_card_le - lemmas
injective_set_finite,injective_card_le,set_finite_preimage - lemmas
surjective_set_finite,surjective_card_le - lemmas
set_finite_diff,card_le_diff - lemmas
set_finite_inter_set0_union,set_finite_inter - lemmas
ex_in_D, definitionsmin_of_D,min_of_D_seq,infsub_enum, lemmasmin_of_D_seqE,increasing_infsub_enum,sorted_infsub_enum,injective_infsub_enum,subset_infsub_enum,infinite_nat_subset_countable - definition
enumeration, lemmasenumeration_id,enumeration_set0. - lemma
ex_enum_notin, definitionsmin_of,minf_of_e_seq,smallest_of - definition
enum_wo_rep, lemmasenum_wo_repE,min_of_e_seqE,smallest_of_e_notin_enum_wo_rep,injective_enum_wo_rep,surjective_enum_wo_rep,set_bijective_enum_wo_rep,enumration_enum_wo_rep,countable_enumeration - lemmas
infinite_nat,infinite_prod_nat,countable_prod_nat,countably_infinite_prod_nat
- lemmas
- in
classical_sets.v- lemma
subset_bigsetU - notation
f @` Adefined as[set f x | x in A]instead of usingimage
- lemma
- in
ereal.v:- change implicits of lemma
lee_sum_nneg_ord ereal_sup_ninftyandereal_inf_pinftymade equivalences- change the notation
{ereal R}to\bar Rand attach it to the scopeereal_scope - argument of
%:Ein%Rby default Fargument of\sumin%Eby default
- change implicits of lemma
- in
topology.v:- change implicits of lemma
cvg_app
- change implicits of lemma
- in
normedtype.v:coord_continuousgeneralized
- in
sequences.v:- change implicits of lemma
is_cvg_ereal_nneg_series - statements changed from using sum of ordinals to sum of nats
- definition
series - lemmas
ereal_nondecreasing_series,ereal_nneg_series_lim_ge - lemmas
is_cvg_ereal_nneg_series_cond,is_cvg_ereal_nneg_series - lemmas
ereal_nneg_series_lim_ge0,ereal_nneg_series_pinfty
- definition
- change implicits of lemma
- in
ereal.v:er->extendedERFin->EFinERPInf->EPInfERNInf->ENInfreal_of_er->real_of_extendedreal_of_erD->real_of_extendedDERFin_real_of_er->EFin_real_of_extendedreal_of_er_expand->real_of_extended_expandNERFin->NEFinaddERFin->addEFinsumERFin->sumEFinsubERFin->subEFin
- in
reals.v:ler_ceil->ceil_geRceil_le->le_Rceille_Rceil->Rceil_gege_Rfloor->Rfloor_leler_floor->floor_leRfloor_le->le_Rfloor
- in
topology.v:- lemmas
onT_can->onS_can,onT_can_in->onS_can_in,in_onT_can-> ``in_onS_can` (now in MathComp)
- lemmas
- in
sequences,v:is_cvg_ereal_nneg_series_cond
- in
forms.v:symmetric->symmetric_form
- in
classical_sets.v- lemmas
eq_set_inl,set_in_in - definition
image
- lemmas
- from
topology.v:- lemmas
homoRL_in,homoLR_in,homo_mono_in,monoLR_in,monoRL_in,can_mono_in,onW_can,onW_can_in,in_onW_can,onT_can,onT_can_in,in_onT_can(now in MathComp)
- lemmas
- in
forms.v:- lemma
mxdirect_delta,row_mx_eq0,col_mx_eq0,map_mx_comp
- lemma
- in
topology.v:- global instance
ball_filter - module
regular_topologywith anExportssubmodule- canonicals
pointedType,filteredType,topologicalType,uniformType,pseudoMetricType
- canonicals
- module
numFieldTopologywith anExportssubmodule- many canonicals and coercions
- global instance
Proper_nbhs'_regular_numFieldType - definition
denseand lemmadenseNE
- global instance
- in
normedtype.v:- definitions
ball_,pointed_of_zmodule,filtered_of_normedZmod - lemmas
ball_norm_center,ball_norm_symmetric,ball_norm_triangle - definition
pseudoMetric_of_normedDomain - lemma
nbhs_ball_normE - global instances
Proper_nbhs'_numFieldType,Proper_nbhs'_realType - module
regular_topologywith anExportssubmodule- canonicals
pseudoMetricNormedZmodType,normedModType.
- canonicals
- module
numFieldNormedTypewith anExportssubmodule- many canonicals and coercions
- exports
Export numFieldTopology.Exports
- canonical
R_regular_completeType,R_regular_CompleteNormedModule
- definitions
- in
reals.v:- lemmas
Rfloor_lt0,floor_lt0,ler_floor,ceil_gt0,ler_ceil - lemmas
has_sup1,has_inf1
- lemmas
- in
ereal.v:- lemmas
ereal_ballN,le_ereal_ball,ereal_ball_ninfty_oversize,contract_ereal_ball_pinfty,expand_ereal_ball_pinfty,contract_ereal_ball_fin_le,contract_ereal_ball_fin_lt,expand_ereal_ball_fin_lt,ball_ereal_ball_fin_lt,ball_ereal_ball_fin_le,sumERFin,ereal_inf1,eqe_oppP,eqe_oppLRP,oppe_subset,ereal_inf_pinfty - definition
er_map - definition
er_map - lemmas
adde_undefC,real_of_erD,fin_num_add_undef,addeK,subeK,subee,sube_le0,lee_sub - lemmas
addeACA,muleC,mule1,mul1e,abseN - enable notation
x \is a fin_num- definition
fin_num, factfin_num_key, lemmasfin_numE,fin_numP
- definition
- lemmas
- in
classical_sets.v:- notation
[disjoint ... & ..] - lemmas
mkset_nil,bigcup_mkset,bigcup_nonempty,bigcup0,bigcup0P,subset_bigcup_r,eqbigcup_r,eq_set_inl,set_in_in
- notation
- in
nngnum.v:- instance
invr_nngnum
- instance
- in
posnum.v:- instance
posnum_nngnum
- instance
-
in
ereal.v:- generalize lemma
lee_sum_nneg_subfset - lemmas
nbhs_oo_up_e1,nbhs_oo_down_e1,nbhs_oo_up_1e,nbhs_oo_down_1enbhs_fin_out_above,nbhs_fin_out_below,nbhs_fin_out_above_belownbhs_fin_inbound
- generalize lemma
-
in
sequences.v:- generalize lemmas
ereal_nondecreasing_series,is_cvg_ereal_nneg_series,ereal_nneg_series_lim_ge0,ereal_nneg_series_pinfty
- generalize lemmas
-
in
measure.v:- generalize lemma
bigUB_of - generalize theorem
Boole_inequality
- generalize lemma
-
in
classical_sets.v:- change the order of arguments of
subset_trans
- change the order of arguments of
-
canonicals and coercions have been changed so that there is not need anymore for explicit types casts to
R^o,[filteredType R^o of R^o],[filteredType R^o * R^o of R^o * R^o],[lmodType R of R^o],[normedModType R of R^o],[topologicalType of R^o],[pseudoMetricType R of R^o] -
sequences.vnow importsnumFieldNormedType.Exports -
topology.vnow importsreals -
normedtype.vnow importsvector,fieldext,falgebra,numFieldTopology.Exports -
derive.vnow importsnumFieldNormedType.Exports
- in
ereal.v:is_realN->fin_numNis_realD->fin_numDereal_sup_set0->ereal_sup0ereal_sup_set1->ereal_sup1ereal_inf_set0->ereal_inf0
- in
topology.v:- section
numFieldType_canonical
- section
- in
normedtype.v:- lemma
R_ball - definition
numFieldType_pseudoMetricNormedZmodMixin - canonical
numFieldType_pseudoMetricNormedZmodType - global instance
Proper_nbhs'_realType - lemma
R_normZ - definition
numFieldType_NormedModMixin - canonical
numFieldType_normedModType
- lemma
- in
ereal.v:- definition
is_real
- definition
- in
boolp.v:- lemmas
iff_notr,iff_not2
- lemmas
- in
classical_sets.v:- lemmas
subset_has_lbound,subset_has_ubound - lemma
mksetE - definitions
cover,partition,pblock_index,pblock - lemmas
trivIsetP,trivIset_sets,trivIset_restr,perm_eq_trivIset - lemma
fdisjoint_cset - lemmas
setDT,set0D,setD0 - lemmas
setC_bigcup,setC_bigcap
- lemmas
- in
reals.v:- lemmas
sup_setU,inf_setU - lemmas
RtointN,floor_le0 - definition
Rceil, lemmasisint_Rceil,Rceil0,le_Rceil,Rceil_le,Rceil_ge0 - definition
ceil, lemmasRceilE,ceil_ge0,ceil_le0
- lemmas
- in
ereal.v:- lemmas
esum_fset_ninfty,esum_fset_pinfty,esum_pinfty
- lemmas
- in
normedtype.v:- lemmas
ereal_nbhs'_le,ereal_nbhs'_le_finite - lemmas
ball_open - definition
closed_ball_, lemmasclosed_closed_ball_ - definition
closed_ball, lemmasclosed_ballxx,closed_ballE,closed_ball_closed,closed_ball_subset,nbhs_closedballP,subset_closed_ball - lemmas
nbhs0_lt,nbhs'0_lt,interior_closed_ballE, open_nbhs_closed_ball` - section "LinearContinuousBounded"
- lemmas
linear_boundedP,linear_continuous0,linear_bounded0,continuousfor0_continuous,linear_bounded_continuous,bounded_funP
- lemmas
- lemmas
- in
measure.v:- definition
sigma_finite
- definition
- in
classical_sets.v:- generalization and change of
trivIset(and thus lemmastrivIset_bigUIandtrivIset_setI) bigcup_distrr,bigcup_distrlgeneralized
- generalization and change of
- header in
normedtype.v, precisions onbounded_fun - in
reals.v:floor_ge0generalized and renamed tofloorR_ge_int
- in
ereal.v,ereal_scopenotation scope:x <= ynotation changed tolee (x : er _) (y : er _)andonly printingnotationx <= yforlee x y- same change for
< - change extended to notations
_ <= _ <= _,_ < _ <= _,_ <= _ < _,_ < _ < _
- in
reals.v:floor->Rfloorisint_floor->isint_RfloorfloorE->RfloorEmem_rg1_floor->mem_rg1_Rfloorfloor_ler->Rfloor_lerfloorS_gtr->RfloorS_gtrfloor_natz->Rfloor_natzRfloor->Rfloor0floor1->Rfloor1ler_floor->ler_Rfloorfloor_le0->Rfloor_le0ifloor->floorifloor_ge0->floor_ge0
- in
topology.v:ball_ler->le_ball
- in
normedtype.v,bounded_on->bounded_near - in
measure.v:AdditiveMeasure.Measure->AdditiveMeasure.AxiomsOuterMeasure.OuterMeasure->OuterMeasure.Axioms
- in
topology.v:ball_le
- in
classical_sets.v:- lemma
bigcapCU
- lemma
- in
sequences.v:- lemmas
ler_sum_nat,sumr_const_nat
- lemmas
- in
classical_sets.v:- lemmas
predeqP,seteqP
- lemmas
- Requires:
- MathComp >= 1.12
- in
boolp.v:- lemmas
contra_not,contra_notT,contra_notN,contra_not_neq,contraPnotare now provided by MathComp 1.12
- lemmas
- in
normedtype.v:- lemmas
ltr_distW,ler_distWare now provided by MathComp 1.12 as lemmasltr_distlC_sublandler_distl_subl - lemmas
maxr_realandbigmaxr_realare now provided by MathComp 1.12 as lemmasmax_realandbigmax_real - definitions
isBOpenandisBClosedare replaced by the definitionbound_side - definition
Rhullnow usesBSideinstead ofBOpen_if
- lemmas
- Drop support for MathComp 1.11
- in
topology.v:Typeclasses Opaque fmap.
- in
classical_sets.v:- lemma
bigcup_distrl - definition
trivIset - lemmas
trivIset_bigUI,trivIset_setI
- lemma
- in
ereal.v:- definition
muleand its notation*(scopeereal_scope) - definition
abseand its notation`| |(scopeereal_scope)
- definition
- in
normedtype.v:- lemmas
closure_sup,near_infty_natSinv_lt,limit_pointP - lemmas
closure_gt,closure_lt - definition
is_interval,is_intervalPle,interval_is_interval - lemma
connected_intervalP - lemmas
interval_openandinterval_closed - lemmas
inf_lb_strict,sup_ub_strict,interval_unbounded_setT,right_bounded_interior,interval_left_unbounded_interior,left_bounded_interior,interval_right_unbounded_interior,interval_bounded_interior - definition
Rhull - lemma
sub_Rhull,is_intervalP
- lemmas
- in
measure.v:- definition
bigcup2, lemmabigcup2E - definitions
isSemiRingOfSets,SemiRingOfSets, notationsemiRingOfSetsType - definitions
RingOfSets_from_semiRingOfSets,RingOfSets, notationringOfSetsType - factory:
isRingOfSets - definitions
Measurable_from_ringOfSets,Measurable - lemma
semiRingOfSets_measurable{I,D} - definition
diff_fsets, lemmassemiRingOfSets_diff_fsetsE,semiRingOfSets_diff_fsets_disjoint - definitions
isMeasurable - factory:
isMeasurable - lemma
bigsetU_measurable,measurable_bigcap - definitions
semi_additive2,semi_additive,semi_sigma_additive - lemmas
semi_additive2P,semi_additiveE,semi_additive2E,semi_sigma_additive_is_additive,semi_sigma_additiveE Module AdditiveMeasure- notations
additive_measure,{additive_measure set T -> {ereal R}}
- notations
- lemmas
measure_semi_additive2,measure_semi_additive,measure_semi_sigma_additive - lemma
semi_sigma_additive_is_additive, canonical/coercionmeasure_additive_measure - lemma
sigma_additive_is_additive - notations
ringOfSetsType,outer_measure - definition
negligibleand its notation.-negligible - lemmas
negligibleP,negligible_set0 - definition
almost_everywhereand its notation{ae mu, P} - lemma
satisfied_almost_everywhere - definition
sigma_subadditive Module OuterMeasure- notation
outer_measure,{outer_measure set T -> {ereal R}}
- notation
- lemmas
outer_measure0,outer_measure_ge0,le_outer_measure,outer_measure_sigma_subadditive,le_outer_measureIC
- definition
- in
boolp.v:- lemmas
and3_asboolP,or3_asboolP,not_and3P
- lemmas
- in
classical_sets.v:- lemma
bigcup_sup
- lemma
- in
topology.v:- lemmas
closure0,separatedC,separated_disjoint,connectedP,connected_subset,bigcup_connected - definition
connected_component - lemma
component_connected
- lemmas
- in
ereal.v:- notation
x >= ydefined asy <= x(only parsing) instead ofgee - notation
x > ydefined asy < x(only parsing) instead ofgte - definition
mkset - lemma
eq_set
- notation
- in
classical_sets.v:- notation
[set x : T | P]now use definitionmkset
- notation
- in
reals.v:- lemmas generalized from
realTypetonumDomainType:setNK,memNE,lb_ubN,ub_lbN,nonemptyN,has_lb_ubN - lemmas generalized from
realTypetorealDomainType:has_ubPn,has_lbPn
- lemmas generalized from
- in
classical_sets.v:subset_empty->subset_nonempty
- in
measure.v:sigma_additive_implies_additive->sigma_additive_is_additive
- in
topology.v:nbhs_of->locally_of
- in
topology.v:connect0->connected0
- in
boolp.v:- lemma
not_andP - lemma
not_exists2P
- lemma
- in
classical_sets.v:- lemmas
setIIl,setIIr,setCS,setSD,setDS,setDSS,setCI,setDUr,setDUl,setIDA,setDD - definition
dep_arrow_choiceType - lemma
bigcup_set0 - lemmas
setUK,setKU,setIK,setKI,subsetEset,subEset,complEset,botEset,topEset,meetEset,joinEset,subsetPset,properPset - Canonical
porderType,latticeType,distrLatticeType,blatticeType,tblatticeType,bDistrLatticeType,tbDistrLatticeType,cbDistrLatticeType,ctbDistrLatticeType - lemmas
set0M,setM0,image_set0_set0,subset_set1,preimage_set0 - lemmas
setICr,setUidPl,subsets_disjoint,disjoints_subset,setDidPl,setIidPl,setIS,setSI,setISS,bigcup_recl,bigcup_distrr,setMT - new lemmas:
lb_set1,ub_lb_set1,ub_lb_refl,lb_ub_lb - new definitions and lemmas:
infimums,infimum,infimums_set1,is_subset1_infimum - new lemmas:
ge_supremum_Nmem,le_infimum_Nmem,nat_supremums_neq0 - lemmas
setUCl,setDv - lemmas
image_preimage_subset,image_subset,preimage_subset - definition
properand its notation< - lemmas
setUK,setKU,setIK,setKI - lemmas
setUK,setKU,setIK,setKI,subsetEset,subEset,complEset,botEset,topEset,meetEset,joinEset,properEneq - Canonical
porderType,latticeType,distrLatticeType,blatticeType,tblatticeType,bDistrLatticeType,tbDistrLatticeType,cbDistrLatticeType,ctbDistrLatticeTypeon classicalset.
- lemmas
- file
nngnum.v - in
topology.v:- definition
meetsand its notation# - lemmas
meetsC,meets_openr,meets_openl,meets_globallyl,meets_globallyr,meetsxxandproper_meetsxx. - definition
limit_point - lemmas
subset_limit_point,closure_limit_point,closure_subset,closureE,closureC,closure_id - lemmas
cluster_nbhs,clusterEonbhs,closureEcluster - definition
separated - lemmas
connected0,connectedPn,connected_continuous_connected - lemmas
closureEnbhs,closureEonbhs,limit_pointEnbhs,limit_pointEonbhs,closeEnbhs,closeEonbhs.
- definition
- in
ereal.v:- notation
\+(ereal_scope) for function addition - notations
>and>=for comparison of extended real numbers - definition
is_real, lemmasis_realN,is_realD,ERFin_real_of_er - basic lemmas:
addooe,adde_Neq_pinfty,adde_Neq_ninfty,addERFin,subERFin,real_of_erN,lb_ereal_inf_adherent - arithmetic lemmas:
oppeD,subre_ge0,suber_ge0,lee_add2lE,lte_add2lE,lte_add,lte_addl,lte_le_add,lte_subl_addl,lee_subr_addr,lee_subl_addr,lte_spaddr - lemmas
gee0P,sume_ge0,lee_sum_nneg,lee_sum_nneg_ord,lee_sum_nneg_subset,lee_sum_nneg_subfset - lemma
lee_addr - lemma
lee_adde - lemma
oppe_continuous - lemmas
ereal_nbhs_pinfty_ge,ereal_nbhs_ninfty_le
- notation
- in
sequences.v:- definitions
arithmetic,geometric,geometric_invn - lemmas
increasing_series,cvg_shiftS,mulrn_arithmetic,exprn_geometric,cvg_arithmetic,cvg_expr,geometric_seriesE,cvg_geometric_series,is_cvg_geometric_series. - lemmas
ereal_cvgN,ereal_cvg_ge0,ereal_lim_ge,ereal_lim_le - lemma
ereal_cvg_real - lemmas
is_cvg_ereal_nneg_series_cond,is_cvg_ereal_nneg_series,ereal_nneg_series_lim_ge0,ereal_nneg_series_pinfty - lemmas
ereal_cvgPpinfty,ereal_cvgPninfty,lee_lim - lemma
ereal_cvgD- with intermediate lemmas
ereal_cvgD_pinfty_fin,ereal_cvgD_ninfty_fin,ereal_cvgD_pinfty_pinfty,ereal_cvgD_ninfty_ninfty
- with intermediate lemmas
- lemma
ereal_limD
- definitions
- in
normedtype.v:- lemma
closed_ereal_le_ereal - lemma
closed_ereal_ge_ereal - lemmas
natmul_continuous,cvgMnandis_cvgMn. uniformTypestructure forereal
- lemma
- in
classical_sets.v:- the index in
bigcup_set1generalized fromnatto someType - lemma
bigcapCUgeneralized - lemmas
preimage_setUandpreimage_setIare about thesetUandsetI(instead ofbigcupandbigcap) eqEsubsetchanged from an implication to an equality
- the index in
- lemma
asboolbmoved fromdiscrete.vtoboolp.v - lemma
exists2NPmoved fromdiscrete.vtoboolp.v - lemma
neg_ormoved fromdiscrete.vtoboolp.vand renamed tonot_orP - definitions
dep_arrow_choiceClassanddep_arrow_pointedTypeslightly generalized and moved fromtopology.vtoclassical_sets.v - the types of the topological notions for
numFieldTypehave been moved fromnormedtype.vtotopology.v - the topology of extended real numbers has been moved from
normedtype.vtoereal.v(including the notions of filters) numdFieldType_lalgTypeinnormedtype.vrenamed tonumFieldType_lalgTypeintopology.v- in
ereal.v:- the first argument of
real_of_eris now maximal implicit - the first argument of
is_realis now maximal implicit - generalization of
lee_sum
- the first argument of
- in
boolp.v:- rename
exists2NPtoforall2NPand make it bidirectionnal
- rename
- moved the definition of
{nngnum _}and the related bigmax theory to the newnngnum.vfile
- in
classical_sets.v:setIDl->setIUlsetUDl->setUIlsetUDr->setUIrsetIDr->setIUlsetCE->setTDpreimage_setU->preimage_bigcup,preimage_setI->preimage_bigcap
- in
boolp.v:contrap->contra_notcontrapL->contraPnotcontrapR->contra_notPcontrapLR->contraPP
- in
boolp.v:contrapNN,contrapTN,contrapNT,contrapTTeqNN
- in
normedtype.v:forallNeqNNPexistsN
- in
discrete.v:existsPexistsNP
- in
topology.v:close_toclose_cluster, which is subsumed bycloseEnbhs
- in
boolp.v, new lemmaandC - in
topology.v:- new lemma
open_nbhsE uniformTypea structure for uniform spaces based on entourages (entourage)uniformTypestructure on products, matrices, function spaces- definitions
nbhs_,topologyOfEntourageMixin,split_ent,nbhsP,entourage_set,entourage_,uniformityOfBallMixin,nbhs_ball - lemmas
nbhs_E,nbhs_entourageE,filter_from_entourageE,entourage_refl,entourage_filter,entourageT,entourage_inv,entourage_split_ex,split_entP,entourage_split_ent,subset_split_ent,entourage_split,nbhs_entourage,cvg_entourageP,cvg_entourage,cvg_app_entourageP,cvg_mx_entourageP,cvg_fct_entourageP,entourage_E,entourage_ballE,entourage_from_ballE,entourage_ball,entourage_proper_filter,open_nbhs_entourage,entourage_close completePseudoMetricTypestructurecompletePseudoMetricTypestructure on matrices and function spaces
- new lemma
- in
classical_sets.v:- lemmas
setICr,setUidPl,subsets_disjoint,disjoints_subset,setDidPl,setIidPl,setIS,setSI,setISS,bigcup_recl,bigcup_distrr,setMT
- lemmas
- in
ereal.v:- notation
\+(ereal_scope) for function addition - notations
>and>=for comparison of extended real numbers - definition
is_real, lemmasis_realN,is_realD,ERFin_real_of_er,adde_undef - basic lemmas:
addooe,adde_Neq_pinfty,adde_Neq_ninfty,addERFin,subERFin,real_of_erN,lb_ereal_inf_adherent - arithmetic lemmas:
oppeD,subre_ge0,suber_ge0,lee_add2lE,lte_add2lE,lte_add,lte_addl,lte_le_add,lte_subl_addl,lee_subr_addr,lee_subl_addr,lte_spaddr,addeAC,addeCA
- notation
- in
normedtype.v:- lemmas
natmul_continuous,cvgMnandis_cvgMn. uniformTypestructure forereal
- lemmas
- in
sequences.v:- definitions
arithmetic,geometric - lemmas
telescopeK,seriesK,increasing_series,cvg_shiftS,mulrn_arithmetic,exprn_geometric,cvg_arithmetic,cvg_expr,geometric_seriesE,cvg_geometric_series,is_cvg_geometric_series.
- definitions
- moved from
normedtype.vtoboolp.vand renamed:forallN->forallNEexistsN->existsNE
topology.v:unif_continuoususesentouragepseudoMetricTypeinherits fromuniformTypegeneric_source_filterandset_filter_sourceuse entouragescauchyis based on entourages and its former version is renamedcauchy_ballcompleteTypeinherits fromuniformTypeand not frompseudoMetricType
- moved from
posnum.vtoRbar.v: notationposreal - moved from
normedtype.vtoRstruct.v:- definitions
R_pointedType,R_filteredType,R_topologicalType,R_uniformType,R_pseudoMetricType - lemmas
continuity_pt_nbhs,continuity_pt_cvg,continuity_ptE,continuity_pt_cvg',continuity_pt_nbhs',nbhs_pt_comp - lemmas
close_trans,close_cvgxx,cvg_closePandclose_clusterare valid for auniformType - moved
continuous_withinNxfromnormedType.vtotopology.vand generalised it touniformType
- definitions
- moved from
measure.vtosequences.vereal_nondecreasing_seriesereal_nneg_series_lim_ge(renamed fromseries_nneg)
- in
classical_sets.v,ubandlbare renamed touboundandlbound- new lemmas:
setUCr,setCE,bigcup_set1,bigcapCU,subset_bigsetU
- in
boolp.v,existsPN->not_existsPforallPN->not_forallPNimply->not_implyP
- in
classical_sets.v,ubandlbare renamed touboundandlbound - in
ereal.v:eadd->adde,eopp->oppe
- in
topology.v:locally->nbhslocally_filterE->nbhs_filterElocally_nearE->nbhs_nearEModule Export LocallyFilter->Module Export NbhsFilterlocally_simpl->nbhs_simpl- three occurrences
near_locally->near_nbhsModule Export NearLocally->Module Export NearNbhslocally_filter_onE->nbhs_filter_onEfilter_locallyT->filter_nbhsTGlobal Instance locally_filter->Global Instance nbhs_filterCanonical locally_filter_on->Canonical nbhs_filter_onneigh->open_nbhslocallyE->nbhsElocally_singleton->nbhs_singletonlocally_interior->nbhs_interiorneighT->open_nbhsTneighI->open_nbhsIneigh_locally->open_nbhs_nbhswithin_locallyW->within_nbhsWprod_loc_filter->prod_nbhs_filterprod_loc_singleton->prod_nbhs_singletonprod_loc_loc->prod_nbhs_nbhsmx_loc_filter->mx_nbhs_filtermx_loc_singleton->mx_nbhs_singletonmx_loc_loc->mx_nbhs_nbhslocally'->nbhs'locallyE'->nbhsE'Global Instance locally'_filter->Global Instance nbhs'_filterCanonical locally'_filter_on->Canonical nbhs'_filter_onlocally_locally'->nbhs_nbhs'Global Instance within_locally_proper->Global Instance within_nbhs_properlocallyP->nbhs_ballPlocally_ball->nbhsx_ballxneigh_ball->open_nbhs_ballmx_locally->mx_nbhsprod_locally->prod_nbhsFiltered.locally_op->Filtered.nbhs_oplocally_of->nbhs_ofopen_of_locally->open_of_nhbslocally_of_open->nbhs_of_openlocally_->nbhs_ball- lemma
locally_ballE->nbhs_ballE locallyW->nearWnearW->near_skip_subprooflocally_infty_gt->nbhs_infty_gtlocally_infty_ge->nbhs_infty_gecauchy_entouragesP->cauchy_ballP
- in
normedtype.v:locallyN->nbhsNlocallyC->nbhsClocallyC_ball->nbhsC_balllocally_ex->nbhs_exGlobal Instance Proper_locally'_numFieldType->Global Instance Proper_nbhs'_numFieldTypeGlobal Instance Proper_locally'_realType->Global Instance Proper_nbhs'_realTypeereal_locally'->ereal_nbhs'ereal_locally->ereal_nbhsGlobal Instance ereal_locally'_filter->Global Instance ereal_nbhs'_filterGlobal Instance ereal_locally_filter->Global Instance ereal_nbhs_filterereal_loc_singleton->ereal_nbhs_singletonereal_loc_loc->ereal_nbhs_nbhslocallyNe->nbhsNelocallyNKe->nbhsNKelocally_oo_up_e1->nbhs_oo_up_e1locally_oo_down_e1->nbhs_oo_down_e1locally_oo_up_1e->nbhs_oo_up_1elocally_oo_down_1e->nbhs_oo_down_1elocally_fin_out_above->nbhs_fin_out_abovelocally_fin_out_below->nbhs_fin_out_belowlocally_fin_out_above_below->nbhs_fin_out_above_belowlocally_fin_inbound->nbhs_fin_inboundereal_locallyE->ereal_nbhsElocally_le_locally_norm->nbhs_le_locally_normlocally_norm_le_locally->locally_norm_le_nbhslocally_locally_norm->nbhs_locally_normfilter_from_norm_locally->filter_from_norm_nbhslocally_ball_norm->nbhs_ball_normlocally_simpl->nbhs_simplGlobal Instance filter_locally->Global Instance filter_locallylocally_interval->nbhs_intervalereal_locally'_le->ereal_nbhs'_leereal_locally'_le_finite->ereal_nbhs'_le_finitelocally_image_ERFin->nbhs_image_ERFinlocally_open_ereal_lt->nbhs_open_ereal_ltlocally_open_ereal_gt->nbhs_open_ereal_gtlocally_open_ereal_pinfty->nbhs_open_ereal_pinftylocally_open_ereal_ninfty->nbhs_open_ereal_ninftycontinuity_pt_locally->continuity_pt_nbhscontinuity_pt_locally'->continuity_pt_nbhs'nbhs_le_locally_norm->nbhs_le_nbhs_normlocally_norm_le_nbhs->nbhs_norm_le_nbhsnbhs_locally_norm->nbhs_nbhs_normlocally_normP->nbhs_normPlocally_normE->nbhs_normEnear_locally_norm->near_nbhs_norm- lemma
locally_norm_ball_norm->nbhs_norm_ball_norm locally_norm_ball->nbhs_norm_ballpinfty_locally->pinfty_nbhsninfty_locally->ninfty_nbhs- lemma
locally_pinfty_gt->nbhs_pinfty_gt - lemma
locally_pinfty_ge->nbhs_pinfty_ge - lemma
locally_pinfty_gt_real->nbhs_pinfty_gt_real - lemma
locally_pinfty_ge_real->nbhs_pinfty_ge_real locally_minfty_lt->nbhs_minfty_ltlocally_minfty_le->nbhs_minfty_lelocally_minfty_lt_real->nbhs_minfty_lt_reallocally_minfty_le_real->nbhs_minfty_le_reallt_ereal_locally->lt_ereal_nbhslocally_pt_comp->nbhs_pt_comp
- in
derive.v:derivable_locally->derivable_nbhsderivable_locallyP->derivable_nbhsPderivable_locallyx->derivable_nbhsxderivable_locallyxP->derivable_nbhsxP
- in
sequences.v,cvg_comp_subn->cvg_centern,cvg_comp_addn->cvg_shiftn,telescoping->telescopesderiv1_series->seriesSBtelescopingS0->eq_sum_telescope
- in
topology.v:- definitions
entourages,topologyOfBallMixin,ball_set - lemmas
locally_E,entourages_filter,cvg_cauchy_ex
- definitions
- in
boolp.v, lemmas for classical reasoningexistsNP,existsPN,forallNP,forallPN,Nimply,orC. - in
classical_sets.v, definitions for supremums:ul,lb,supremum - in
ereal.v:- technical lemmas
lee_ninfty_eq,lee_pinfty_eq,lte_subl_addr,eqe_oppLR - lemmas about supremum:
ereal_supremums_neq0 - definitions:
ereal_sup,ereal_inf
- lemmas about
ereal_sup:ereal_sup_ub,ub_ereal_sup,ub_ereal_sup_adherent
- technical lemmas
- in
normedtype.v:- function
contract(bijection from{ereal R}toR) - function
expand(that cancelscontract) ereal_pseudoMetricType R
- function
- in
reals.v,predreplaced bysetfromclassical_sets.v- change propagated in many files
This release is compatible with MathComp version 1.11+beta1.
The biggest change of this release is compatibility with MathComp 1.11+beta1. The latter introduces in particular ordered types. All norms and absolute values have been unified, both in their denotation `|_| and in their theory.
sequences.v: Main theorems about sequences and series, and examples- Definitions:
[sequence E]_nis a special notation forfun n => Eseries u_is the sequence of partial sums[normed S]is the series of absolute values, if S is a seriesharmonicis the name of a sequence, applyseriesto them to get the series.
- Theorems:
- lots of helper lemmas to prove convergence of sequences
- convergence of harmonic sequence
- convergence of a series implies convergence of a sequence
- absolute convergence implies convergence of series
- Definitions:
- in
ereal.v: lemmas about extended reals' arithmetic - in
normedtype.v: Definitions and lemmas about generic domination, boundedness, and lipschitz- See header for the notations and their localization
- Added a bunch of combinators to extract existential witnesses
- Added
filter_forall(commutation between a filter and finite forall)
- about extended reals:
- equip extended reals with a structure of topological space
- show that extended reals are hausdorff
- in
topology.v, predicateclose - lemmas about bigmaxr and argmaxr
\big[max/x]_P F = F [arg max_P F]- similar lemma for
bigmin
- lemmas for
within - add
setICl(intersection of set with its complement) prodnormedzmodule.vProdNormedZmoduletransfered from MathCompnonnegtype for non-negative numbers
bigmaxr/bigminrlibrary- Lemmas
interiorI,setCU(complement of union is intersection of complements),setICl,nonsubset,setC0,setCK,setCT,preimage_setI/U, lemmas aboutimage
- in
Rstruct.v,bigmaxris now defined usingbigop inEnow supportsin_setEandin_fsetE- fix the definition of
le_ereal,lt_ereal - various generalizations to better use the hierarchy of
ssrnum(numDomainType,numFieldType,realDomainType, etc. when possible) intopology.v,normedtype.v,derive.v, etc.
- renaming
flimtocvgcvgcorresponds to_ --> _limcorresponds tolim _continuouscorresponds to continuity- some suffixes
_opp,_add... renamed toN,D, ...
- big refactoring about naming conventions
- complete the theory of
cvg_,is_cvg_andlim_in normedtype.v with consistent naming schemes - fixed differential of
invwhich was defined on1 / xinstead ofx^-1 - two versions of lemmas on inverse exist
- one in realType (
Rinv_lemmas), for which we have differential - a general one
numFieldType(inv_lemmas in normedtype.v, no differential so far, just continuity)
- one in realType (
- renamed
cvg_normtocvg_distto reuse the namecvg_normfor convergence under the norm
- complete the theory of
Uniformrenamed toPseudoMetric- rename
is_proptois_subset1
sub_trans(replaced by MathComp'ssubrKA)derive.vdoes not requireRealsanymoreRbar.vis almost not used anymore
- NIX support
- see
config.nix,default.nix - for the CI also
- see