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+%global _empty_manifest_terminate_build 0
+Name:		python-pollination-pmv-comfort-map
+Version:	0.8.16
+Release:	1
+Summary:	PMV thermal comfort map for Pollination.
+License:	PolyForm Shield License 1.0.0, https://polyformproject.org/wp-content/uploads/2020/06/PolyForm-Shield-1.0.0.txt
+URL:		https://github.com/pollination/pmv-comfort-map
+Source0:	https://mirrors.nju.edu.cn/pypi/web/packages/cc/69/8193d1b1d2a39401366e3d6a6f35926f4a27674f5723fd52f4195cceb0b2/pollination-pmv-comfort-map-0.8.16.tar.gz
+BuildArch:	noarch
+
+Requires:	python3-pollination-ladybug
+Requires:	python3-pollination-ladybug-comfort
+Requires:	python3-pollination-honeybee-radiance
+Requires:	python3-pollination-honeybee-energy
+Requires:	python3-pollination-lbt-honeybee
+Requires:	python3-pollination-alias
+Requires:	python3-pollination-path
+Requires:	python3-pollination-honeybee-display
+
+%description
+# PMV Comfort Map
+
+PMV thermal comfort map recipe for Pollination.
+
+Compute spatially-resolved PMV thermal comfort from a Honeybee model and EPW.
+This recipe also computes operative temperature or (optionally) Standard
+Effective Temperature (SET). Raw results are written into a `results/` folder and
+include CSV matrices of hourly temperatures, thermal conditions and PMV. Processed
+metrics of Thermal Comfort Percent (TCP) can be found in the `metrics/` folder.
+Input conditions to the comfort model are written to an `initial_results/conditions`
+folder.
+
+## Methods
+
+This recipe uses EnergyPlus to obtain surface temperatures and indoor air
+temperatures + humidities. Outdoor air temperatures, relative humidities, and
+air speeds are taken directly from the EPW. All outdoor points are assumed to be
+at one half of the EPW meteorological wind speed (effectively representing wind
+speed at ground/human height).
+
+Longwave radiant temperatures are achieved by computing spherical view factors
+from each sensor to the surfaces of the model using Radiance. These view factors
+are then multiplied by the surface temperatures output by EnergyPlus to yield
+longwave MRT at each sensor. All indoor shades (eg. those representing furniture)
+are assumed to be at the room-average MRT. For outdoor sensors, the EnergyPlus
+outdoor surface temperatures are used and each sensor's sky view is multiplied by
+the EPW sky temperature to account for longwave radiant exchange with the sky.
+All outdoor context shades and the ground are assumed to be at the EPW air
+temperature unless they have been modeled as Honeybee rooms.
+
+A Radiance-based enhanced 2-phase method is used for all shortwave MRT calculations,
+which precisely represents direct sun by tracing a ray from each sensor to the
+solar position. The energy properties of the model geometry are what determine
+the reflectance and transmittance of the Radiance materials in this shortwave
+calculation.
+
+To determine Thermal Comfort Percent (TCP), the occupancy schedules of the energy
+model are used. Any hour of the occupancy schedule that is 0.1 or greater will be
+considered occupied. For outdoor sensors, all hours are considered occupied.
+
+
+
+
+%package -n python3-pollination-pmv-comfort-map
+Summary:	PMV thermal comfort map for Pollination.
+Provides:	python-pollination-pmv-comfort-map
+BuildRequires:	python3-devel
+BuildRequires:	python3-setuptools
+BuildRequires:	python3-pip
+%description -n python3-pollination-pmv-comfort-map
+# PMV Comfort Map
+
+PMV thermal comfort map recipe for Pollination.
+
+Compute spatially-resolved PMV thermal comfort from a Honeybee model and EPW.
+This recipe also computes operative temperature or (optionally) Standard
+Effective Temperature (SET). Raw results are written into a `results/` folder and
+include CSV matrices of hourly temperatures, thermal conditions and PMV. Processed
+metrics of Thermal Comfort Percent (TCP) can be found in the `metrics/` folder.
+Input conditions to the comfort model are written to an `initial_results/conditions`
+folder.
+
+## Methods
+
+This recipe uses EnergyPlus to obtain surface temperatures and indoor air
+temperatures + humidities. Outdoor air temperatures, relative humidities, and
+air speeds are taken directly from the EPW. All outdoor points are assumed to be
+at one half of the EPW meteorological wind speed (effectively representing wind
+speed at ground/human height).
+
+Longwave radiant temperatures are achieved by computing spherical view factors
+from each sensor to the surfaces of the model using Radiance. These view factors
+are then multiplied by the surface temperatures output by EnergyPlus to yield
+longwave MRT at each sensor. All indoor shades (eg. those representing furniture)
+are assumed to be at the room-average MRT. For outdoor sensors, the EnergyPlus
+outdoor surface temperatures are used and each sensor's sky view is multiplied by
+the EPW sky temperature to account for longwave radiant exchange with the sky.
+All outdoor context shades and the ground are assumed to be at the EPW air
+temperature unless they have been modeled as Honeybee rooms.
+
+A Radiance-based enhanced 2-phase method is used for all shortwave MRT calculations,
+which precisely represents direct sun by tracing a ray from each sensor to the
+solar position. The energy properties of the model geometry are what determine
+the reflectance and transmittance of the Radiance materials in this shortwave
+calculation.
+
+To determine Thermal Comfort Percent (TCP), the occupancy schedules of the energy
+model are used. Any hour of the occupancy schedule that is 0.1 or greater will be
+considered occupied. For outdoor sensors, all hours are considered occupied.
+
+
+
+
+%package help
+Summary:	Development documents and examples for pollination-pmv-comfort-map
+Provides:	python3-pollination-pmv-comfort-map-doc
+%description help
+# PMV Comfort Map
+
+PMV thermal comfort map recipe for Pollination.
+
+Compute spatially-resolved PMV thermal comfort from a Honeybee model and EPW.
+This recipe also computes operative temperature or (optionally) Standard
+Effective Temperature (SET). Raw results are written into a `results/` folder and
+include CSV matrices of hourly temperatures, thermal conditions and PMV. Processed
+metrics of Thermal Comfort Percent (TCP) can be found in the `metrics/` folder.
+Input conditions to the comfort model are written to an `initial_results/conditions`
+folder.
+
+## Methods
+
+This recipe uses EnergyPlus to obtain surface temperatures and indoor air
+temperatures + humidities. Outdoor air temperatures, relative humidities, and
+air speeds are taken directly from the EPW. All outdoor points are assumed to be
+at one half of the EPW meteorological wind speed (effectively representing wind
+speed at ground/human height).
+
+Longwave radiant temperatures are achieved by computing spherical view factors
+from each sensor to the surfaces of the model using Radiance. These view factors
+are then multiplied by the surface temperatures output by EnergyPlus to yield
+longwave MRT at each sensor. All indoor shades (eg. those representing furniture)
+are assumed to be at the room-average MRT. For outdoor sensors, the EnergyPlus
+outdoor surface temperatures are used and each sensor's sky view is multiplied by
+the EPW sky temperature to account for longwave radiant exchange with the sky.
+All outdoor context shades and the ground are assumed to be at the EPW air
+temperature unless they have been modeled as Honeybee rooms.
+
+A Radiance-based enhanced 2-phase method is used for all shortwave MRT calculations,
+which precisely represents direct sun by tracing a ray from each sensor to the
+solar position. The energy properties of the model geometry are what determine
+the reflectance and transmittance of the Radiance materials in this shortwave
+calculation.
+
+To determine Thermal Comfort Percent (TCP), the occupancy schedules of the energy
+model are used. Any hour of the occupancy schedule that is 0.1 or greater will be
+considered occupied. For outdoor sensors, all hours are considered occupied.
+
+
+
+
+%prep
+%autosetup -n pollination-pmv-comfort-map-0.8.16
+
+%build
+%py3_build
+
+%install
+%py3_install
+install -d -m755 %{buildroot}/%{_pkgdocdir}
+if [ -d doc ]; then cp -arf doc %{buildroot}/%{_pkgdocdir}; fi
+if [ -d docs ]; then cp -arf docs %{buildroot}/%{_pkgdocdir}; fi
+if [ -d example ]; then cp -arf example %{buildroot}/%{_pkgdocdir}; fi
+if [ -d examples ]; then cp -arf examples %{buildroot}/%{_pkgdocdir}; fi
+pushd %{buildroot}
+if [ -d usr/lib ]; then
+	find usr/lib -type f -printf "/%h/%f\n" >> filelist.lst
+fi
+if [ -d usr/lib64 ]; then
+	find usr/lib64 -type f -printf "/%h/%f\n" >> filelist.lst
+fi
+if [ -d usr/bin ]; then
+	find usr/bin -type f -printf "/%h/%f\n" >> filelist.lst
+fi
+if [ -d usr/sbin ]; then
+	find usr/sbin -type f -printf "/%h/%f\n" >> filelist.lst
+fi
+touch doclist.lst
+if [ -d usr/share/man ]; then
+	find usr/share/man -type f -printf "/%h/%f.gz\n" >> doclist.lst
+fi
+popd
+mv %{buildroot}/filelist.lst .
+mv %{buildroot}/doclist.lst .
+
+%files -n python3-pollination-pmv-comfort-map -f filelist.lst
+%dir %{python3_sitelib}/*
+
+%files help -f doclist.lst
+%{_docdir}/*
+
+%changelog
+* Wed May 31 2023 Python_Bot <Python_Bot@openeuler.org> - 0.8.16-1
+- Package Spec generated