From 89d4c09ac82a59852b1b517477bedddeb55602e7 Mon Sep 17 00:00:00 2001 From: Reynald Affeldt Date: Sat, 4 Jun 2022 01:54:24 +0900 Subject: [PATCH] changelog for version 0.5.1 --- CHANGELOG.md | 209 +++++++++++++++++++++++++++++++++++++++- CHANGELOG_UNRELEASED.md | 207 --------------------------------------- INSTALL.md | 2 +- 3 files changed, 209 insertions(+), 209 deletions(-) diff --git a/CHANGELOG.md b/CHANGELOG.md index 2d18c75c7..81c8ebd16 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -1,6 +1,213 @@ # Changelog -Last releases: [[0.5.0] - 2022-03-23](#050---2022-03-23) and [[0.4.0] - 2022-03-08](#040---2022-03-08) +Last releases: [[0.5.1] - 2022-06-04](#051---2022-06-04) and [[0.5.0] - 2022-03-23](#050---2022-03-23) + +## [0.5.1] - 2022-06-04 + +### Added + +- in `mathcomp_extra.v`: + + lemma `card_fset_sum1` +- in `classical_sets.v`: + + lemma `preimage_setT` + + lemma `bigsetU_bigcup` + + lemmas `setI_II` and `setU_II` +- 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 `equicontinuous` and `pointwise_precompact` to use index + + lemmas `ptws_cvg_entourage`, `equicontinuous_closure`, `ptws_compact_cvg` + `ptws_compact_closed`, `ascoli_forward`, `compact_equicontinuous` +- in `normedtype.v`: + + definition `bigcup_ointsub` + + lemmas `bigcup_ointsub0`, `open_bigcup_ointsub`, `is_interval_bigcup_ointsub`, + `bigcup_ointsub_sub`, `open_bigcup_rat` + + lemmas `mulrl_continuous` and `mulrr_continuous`. +- in `ereal.v`: + + definition `expe` with notation `^+` + + definition `enatmul` with notation `*+` (scope `%E`) + + definition `ednatmul` with 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` + + notations `{posnum \bar R}` and `{nonneg \bar R}` + + notations `%:pos` and `%:nng` in `ereal_dual_scope` and `ereal_scope` + + variants `posnume_spec` and `nonnege_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` +- in `esum.v`: + + lemma `esum_set1` + + lemma `nnseries_interchange` +- in `cardinality.v`: + + lemma `fset_set_image`, `card_fset_set`, `geq_card_fset_set`, + `leq_card_fset_set`, `infinite_set_fset`, `infinite_set_fsetP` and + `fcard_eq`. +- in `sequences.v`: + + lemmas `nneseriesrM`, `ereal_series_cond`, `ereal_series`, `nneseries_split` + + lemmas `lee_nneseries` +- in `numfun.v`: + + lemma `restrict_lee` +- in `measure.v`: + + definition `pushforward` and canonical `pushforward_measure` + + definition `dirac` with notation `\d_` and canonical `dirac_measure` + + lemmas `finite_card_dirac`, `infinite_card_dirac` + + lemma `eq_measure` + + definition `msum` and canonical `measure_sum'` + + definition `mzero` and canonical `measure_zero'` + + definition `measure_add` and lemma `measure_addE` + + definition `mseries` and canonical `measure_series'` +- in `set_interval.v`: + + lemma `opp_itv_infty_bnd` +- in `lebesgue_integral.v`: + + lemmas `integral_set0`, `ge0_integral_bigsetU`, `ge0_integral_bigcup` +- 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` +- in `lebesgue_integral.v`: + + lemmas `integralM_indic`, `integralM_indic_nnsfun`, `integral_dirac` + + lemma `integral_measure_zero` + + lemma `eq_measure_integral` + +### Changed + +- in `mathcomp_extra.v`: + + generalize `card_fset_sum1` +- in `classical_sets.v`: + + lemma `some_bigcup` generalized and renamed to `image_bigcup` +- in `esumv`: + + remove one hypothesis in lemmas `reindex_esum`, `esum_image` +- moved from `lebesgue_integral.v` to `lebesgue_measure.v` and generalized + + hint `measurable_set1`/`emeasurable_set1` +- in `sequences.v`: + + generalize `eq_nneseries`, `nneseries0` +- in `set_interval.v`: + + generalize `opp_itvoo` to `opp_itv_bnd_bnd` +- in `lebesgue_integral.v`: + + change the notation `\int_` + +### Renamed + +- in `ereal.v`: + + `num_abs_le` -> `num_abse_le` + + `num_abs_lt` -> `num_abse_lt` + + `addooe` -> `addye` + + `addeoo` -> `addey` + + `mule_ninfty_pinfty` -> `mulNyy` + + `mule_pinfty_ninfty` -> `mulyNy` + + `mule_pinfty_pinfty` -> `mulyy` + + `mule_ninfty_ninfty` -> `mulNyNy` + + `lte_0_pinfty` -> `lt0y` + + `lte_ninfty_0` -> `ltNy0` + + `lee_0_pinfty` -> `le0y` + + `lee_ninfty_0` -> `leNy0` + + `lte_pinfty` -> `ltey` + + `lte_ninfty` -> `ltNye` + + `lee_pinfty` -> `leey` + + `lee_ninfty` -> `leNye` + + `mulrpinfty_real` -> `real_mulry` + + `mulpinftyr_real` -> `real_mulyr` + + `mulrninfty_real` -> `real_mulrNy` + + `mulninftyr_real` -> `real_mulNyr` + + `mulrpinfty` -> `mulry` + + `mulpinftyr` -> `mulyr` + + `mulrninfty` -> `mulrNy` + + `mulninftyr` -> `mulNyr` + + `gt0_mulpinfty` -> `gt0_mulye` + + `lt0_mulpinfty` -> `lt0_mulye` + + `gt0_mulninfty` -> `gt0_mulNye` + + `lt0_mulninfty` -> `lt0_mulNye` + + `maxe_pinftyl` -> `maxye` + + `maxe_pinftyr` -> `maxey` + + `maxe_ninftyl` -> `maxNye` + + `maxe_ninftyr` -> `maxeNy` + + `mine_ninftyl` -> `minNye` + + `mine_ninftyr` -> `mineNy` + + `mine_pinftyl` -> `minye` + + `mine_pinftyr` -> `miney` + + `mulrinfty_real` -> `real_mulr_infty` + + `mulrinfty` -> `mulr_infty` +- in `realfun.v`: + + `exp_continuous` -> `exprn_continuous` +- in `sequences.v`: + + `ereal_pseriesD` -> `nneseriesD` + + `ereal_pseries0` -> `nneseries0` + + `ereal_pseries_pred0` -> `nneseries_pred0` + + `eq_ereal_pseries` -> `eq_nneseries` + + `ereal_pseries_sum_nat` -> `nneseries_sum_nat` + + `ereal_pseries_sum` -> `nneseries_sum` + + `ereal_pseries_mkcond` -> `nneseries_mkcond` + + `ereal_nneg_series_lim_ge` -> `nneseries_lim_ge` + + `is_cvg_ereal_nneg_series_cond` -> `is_cvg_nneseries_cond` + + `is_cvg_ereal_nneg_series` -> `is_cvg_nneseries` + + `ereal_nneg_series_lim_ge0` -> `nneseries_lim_ge0` + + `adde_def_nneg_series` -> `adde_def_nneseries` +- in `esum.v`: + + `ereal_pseries_esum` -> `nneseries_esum` +- in `numfun.v`: + + `funenng` -> `funepos` + + `funennp` -> `funeneg` + + `funenng_ge0` -> `funepos_ge0` + + `funennp_ge0` -> `funeneg_ge0` + + `funenngN` -> `funeposN` + + `funennpN` -> `funenegN` + + `funenng_restrict` -> `funepos_restrict` + + `funennp_restrict` -> `funeneg_restrict` + + `ge0_funenngE` -> `ge0_funeposE` + + `ge0_funennpE` -> `ge0_funenegE` + + `le0_funenngE` -> `le0_funeposE` + + `le0_funennpE` -> `le0_funenegE` + + `gt0_funenngM` -> `gt0_funeposM` + + `gt0_funennpM` -> `gt0_funenegM` + + `lt0_funenngM` -> `lt0_funeposM` + + `lt0_funennpM` -> `lt0_funenegM` + + `funenngnnp` -> `funeposneg` + + `add_def_funennpg` -> `add_def_funeposneg` + + `funeD_Dnng` -> `funeD_Dpos` + + `funeD_nngD` -> `funeD_posD` +- in `lebesgue_measure.v`: + + `emeasurable_fun_funenng` -> `emeasurable_fun_funepos` + + `emeasurable_fun_funennp` -> `emeasurable_fun_funeneg` +- in `lebesgue_integral.v`: + + `integrable_funenng` -> `integrable_funepos` + + `integrable_funennp` -> `integrable_funeneg` + + `integral_funennp_lt_pinfty` -> `integral_funeneg_lt_pinfty` + + `integral_funenng_lt_pinfty` -> `integral_funepos_lt_pinfty` + + `ae_eq_funenng_funennp` -> `ae_eq_funeposneg` + +### Removed + +- in `mathcomp_extra.v`: + + lemmas `natr_absz`, `ge_pinfty`, `le_ninfty`, `gt_pinfty`, + `lt_ninfty` +- in `classical_sets.v`: + + notation `[set of _]` +- in `topology.v`: + + lemmas `inj_can_sym_in_on`, `inj_can_sym_on`, `inj_can_sym_in` ## [0.5.0] - 2022-03-23 diff --git a/CHANGELOG_UNRELEASED.md b/CHANGELOG_UNRELEASED.md index 5cc62dfd7..c1ee5bdc8 100644 --- a/CHANGELOG_UNRELEASED.md +++ b/CHANGELOG_UNRELEASED.md @@ -4,219 +4,12 @@ ### Added -- in file `normedtype.v`: - + definition `bigcup_ointsub` - + lemmas `bigcup_ointsub0`, `open_bigcup_ointsub`, `is_interval_bigcup_ointsub`, - `bigcup_ointsub_sub`, `open_bigcup_rat` - + lemmas `mulrl_continuous` and `mulrr_continuous`. -- in file `lebesgue_measure.v`: - + lemmas `is_interval_measurable`, `open_measurable`, `continuous_measurable_fun` -- in `classical_sets.v`: - + lemma `preimage_setT` -- in `ereal.v`: - + definition `expe` with notation `^+` - + definition `enatmul` with notation `*+` (scope `%E`) - + definition `ednatmul` with 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` -- in `esum.v`: - + lemma `esum_set1` -- in `ereal.v`: - + lemmas `oppeB`, `doppeB`, `fineB`, `dfineB` -- in file `mathcomp_extra.v`: - + lemma `card_fset_sum1` -- in file `classical_sets.v`: - + lemmas `setI_II` and `setU_II` -- in file `cardinality.v`: - + lemma `fset_set_image`, `card_fset_set`, `geq_card_fset_set`, - `leq_card_fset_set`, `infinite_set_fset`, `infinite_set_fsetP` and - `fcard_eq`. - + notations `{posnum \bar R}` and `{nonneg \bar R}` - + notations `%:pos` and `%:nng` in `ereal_dual_scope` and `ereal_scope` - + variants `posnume_spec` and `nonnege_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` -- 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 `equicontinuous` and `pointwise_precompact` to use index - + lemmas `ptws_cvg_entourage`, `equicontinuous_closure`, `ptws_compact_cvg` - `ptws_compact_closed`, `ascoli_forward`, `compact_equicontinuous` -- in file `ereal.v`: - + lemma `abse1` -- in file `sequences.v`: - + lemmas `nneseriesrM`, `ereal_series_cond`, `ereal_series`, `nneseries_split` - + lemmas `lee_nneseries` -- in file `esum.v`: - + lemma `nnseries_interchange` -- in file `ereal.v`: - + lemma `ltninfty_adde_def` -- in file `lebesgue_measure.v`: - + lemma `emeasurable_funN` -- in file `measure.v`: - + definition `pushforward` and canonical `pushforward_measure` - + definition `dirac` with notation `\d_` and canonical `dirac_measure` - + lemmas `finite_card_dirac`, `infinite_card_dirac` -- in file `lebesgue_integral.v`: - + lemmas `integralM_indic`, `integralM_indic_nnsfun`, `integral_dirac` -- in file `measure.v`: - + lemma `eq_measure` - + definition `msum` and canonical `measure_sum'` - + definition `mzero` and canonical `measure_zero'` - + definition `measure_add` and lemma `measure_addE` - + definition `mseries` and canonical `measure_series'` -- in file `lebesgue_integral.v`: - + lemma `integral_measure_zero` - + lemma `eq_measure_integral` -- in file `classical_sets.v`: - + lemma `bigsetU_bigcup` -- in file `numfun.v`: - + lemma `restrict_lee` -- in file `lebesgue_integral.v`: - + lemmas `integral_set0`, `ge0_integral_bigsetU`, `ge0_integral_bigcup` -- in file `lebesgue_measure.v`: - + 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` -- in file `set_interval.v`: - + lemma `opp_itv_infty_bnd` - ### Changed -- in `esumv`: - + remove one hypothesis in lemmas `reindex_esum`, `esum_image` -- moved from `lebesgue_integral.v` to `lebesgue_measure.v` and generalized - + hint `measurable_set1`/`emeasurable_set1` -- in `sequences.v`: - + generalize `eq_nneseries`, `nneseries0` -- in `mathcomp_extra.v`: - + generalize `card_fset_sum1` -- in `lebesgue_integral.v`: - + change the notation `\int_` -- in `set_interval.v`: - + generalize `opp_itvoo` to `opp_itv_bnd_bnd` -- in `classical_sets.v`: - + lemma `some_bigcup` generalized and renamed to `image_bigcup` - ### Renamed -- in `ereal.v`: - + `num_abs_le` -> `num_abse_le` - + `num_abs_lt` -> `num_abse_lt` - + `addooe` -> `addye` - + `addeoo` -> `addey` - + `mule_ninfty_pinfty` -> `mulNyy` - + `mule_pinfty_ninfty` -> `mulyNy` - + `mule_pinfty_pinfty` -> `mulyy` - + `mule_ninfty_ninfty` -> `mulNyNy` - + `lte_0_pinfty` -> `lt0y` - + `lte_ninfty_0` -> `ltNy0` - + `lee_0_pinfty` -> `le0y` - + `lee_ninfty_0` -> `leNy0` - + `lte_pinfty` -> `ltey` - + `lte_ninfty` -> `ltNye` - + `lee_pinfty` -> `leey` - + `lee_ninfty` -> `leNye` - + `mulrpinfty_real` -> `real_mulry` - + `mulpinftyr_real` -> `real_mulyr` - + `mulrninfty_real` -> `real_mulrNy` - + `mulninftyr_real` -> `real_mulNyr` - + `mulrpinfty` -> `mulry` - + `mulpinftyr` -> `mulyr` - + `mulrninfty` -> `mulrNy` - + `mulninftyr` -> `mulNyr` - + `gt0_mulpinfty` -> `gt0_mulye` - + `lt0_mulpinfty` -> `lt0_mulye` - + `gt0_mulninfty` -> `gt0_mulNye` - + `lt0_mulninfty` -> `lt0_mulNye` - + `maxe_pinftyl` -> `maxye` - + `maxe_pinftyr` -> `maxey` - + `maxe_ninftyl` -> `maxNye` - + `maxe_ninftyr` -> `maxeNy` - + `mine_ninftyl` -> `minNye` - + `mine_ninftyr` -> `mineNy` - + `mine_pinftyl` -> `minye` - + `mine_pinftyr` -> `miney` - + `mulrinfty_real` -> `real_mulr_infty` - + `mulrinfty` -> `mulr_infty` -- in `realfun.v`: - + `exp_continuous` -> `exprn_continuous` -- in `sequences.v`: - + `ereal_pseriesD` -> `nneseriesD` - + `ereal_pseries0` -> `nneseries0` - + `ereal_pseries_pred0` -> `nneseries_pred0` - + `eq_ereal_pseries` -> `eq_nneseries` - + `ereal_pseries_sum_nat` -> `nneseries_sum_nat` - + `ereal_pseries_sum` -> `nneseries_sum` - + `ereal_pseries_mkcond` -> `nneseries_mkcond` - + `ereal_nneg_series_lim_ge` -> `nneseries_lim_ge` - + `is_cvg_ereal_nneg_series_cond` -> `is_cvg_nneseries_cond` - + `is_cvg_ereal_nneg_series` -> `is_cvg_nneseries` - + `ereal_nneg_series_lim_ge0` -> `nneseries_lim_ge0` - + `adde_def_nneg_series` -> `adde_def_nneseries` -- in `esum.v`: - + `ereal_pseries_esum` -> `nneseries_esum` -- in `numfun.v`: - + `funenng` -> `funepos` - + `funennp` -> `funeneg` - + `funenng_ge0` -> `funepos_ge0` - + `funennp_ge0` -> `funeneg_ge0` - + `funenngN` -> `funeposN` - + `funennpN` -> `funenegN` - + `funenng_restrict` -> `funepos_restrict` - + `funennp_restrict` -> `funeneg_restrict` - + `ge0_funenngE` -> `ge0_funeposE` - + `ge0_funennpE` -> `ge0_funenegE` - + `le0_funenngE` -> `le0_funeposE` - + `le0_funennpE` -> `le0_funenegE` - + `gt0_funenngM` -> `gt0_funeposM` - + `gt0_funennpM` -> `gt0_funenegM` - + `lt0_funenngM` -> `lt0_funeposM` - + `lt0_funennpM` -> `lt0_funenegM` - + `funenngnnp` -> `funeposneg` - + `add_def_funennpg` -> `add_def_funeposneg` - + `funeD_Dnng` -> `funeD_Dpos` - + `funeD_nngD` -> `funeD_posD` -- in `lebesgue_measure.v`: - + `emeasurable_fun_funenng` -> `emeasurable_fun_funepos` - + `emeasurable_fun_funennp` -> `emeasurable_fun_funeneg` -- in `lebesgue_integral.v`: - + `integrable_funenng` -> `integrable_funepos` - + `integrable_funennp` -> `integrable_funeneg` - + `integral_funennp_lt_pinfty` -> `integral_funeneg_lt_pinfty` - + `integral_funenng_lt_pinfty` -> `integral_funepos_lt_pinfty` - + `ae_eq_funenng_funennp` -> `ae_eq_funeposneg` - ### Removed -- in `mathcomp_extra.v`: - + lemmas `natr_absz`, `ge_pinfty`, `le_ninfty`, `gt_pinfty`, - `lt_ninfty` -- in `classical_sets.v`: - + notation `[set of _]` -- in `topology.v`: - + lemmas `inj_can_sym_in_on`, `inj_can_sym_on`, `inj_can_sym_in` - ### Infrastructure ### Misc diff --git a/INSTALL.md b/INSTALL.md index 282cb5cad..a3e71eb15 100644 --- a/INSTALL.md +++ b/INSTALL.md @@ -47,7 +47,7 @@ $ opam install coq-mathcomp-analysis ``` To install a precise version, type, say ``` -$ opam install coq-mathcomp-analysis.0.5.0 +$ opam install coq-mathcomp-analysis.0.5.1 ``` 4. Everytime you want to work in this same context, you need to type ```