Since VPStandardStateTP and derived classes do not use the reference state
thermodynamic properties in the m_spthermo object, we can just install
placeholder objects there, and eliminate the wrapper clas STITbyPDSS.
Results in increase in mixture-averaged thermal conductivity of ~1% or less, and
a similar increase in laminar flame speeds, at least for some test cases.
If no full or minimal Python interface is being built, copy the minimal
interface into the build directory and use the sys.executable to run it,
so the tests that require CTML or CTI conversion can run.
The 'install' and 'test' targets had some undeclared dependencies on the 'build'
target, such that running 'scons install' or 'scons test' without having first
run 'scons build' would result in incomplete installation or test failures,
respectively.
Fixes#432.
The reference pressure (p0) must be species-specific, since for certain PDSS
classes (e.g. PDSS_Water) p0 is a function of temperature, while for other
classes (PDSS_ConstVol) it is a constant.
VPSSMgr_Water_ConstVol further assumed that the reference pressure for all
species was 1 atm, ignoring the setting in the PDSS object. Fixing this changed
test results for HMW_test_1 and HMW_test_3.
Added a test that specifically compares VPSSMgr_Water_ConstVol with
VPSSMgr_General.
The following classes (and their children) will be non-copyable and
non-assignable after Cantera 2.3:
- ThermoPhase
- Kinetics
- Transport
- Species
- SpeciesThermoInterpType
- MultiSpeciesThermo
- VPSSMgr
- PDSS
- ResidJacEval
- RootFind
These headers should only include general functionality, i.e. base classes and
factory methods. Users working directly with derived types can include the
relevant headers directly.
Deprecate some top-level headers which are not really useful.
All quantities here are nondimensional, so taking h+cp*T makes no sense, and
caused the test to pass even for suspicously discontinuous thermo data (although
the bad data would generally get flagged by the tests for cp and/or s).
All of the functions for manipulating the global error stack
(CanteraError::save, setError, showErrors, etc.) are deprecated. The ability to
store an error is retained only for use in the C and Fortran interfaces so that
the last error message can be retrieved after a function returns an error code.