#!/usr/bin/env python from __future__ import generators import config.base class Configure(config.base.Configure): def __init__(self, framework): config.base.Configure.__init__(self, framework) self.headerPrefix = '' self.substPrefix = '' self.have__float128 = 0 return def __str1__(self): output = ' Scalar type: ' + self.scalartype + '\n' output += ' Precision: ' + self.precision + '\n' if self.have__float128 and not self.precision == '__float128': output += ' Support for __float128\n' return output def setupHelp(self, help): import nargs # Dec 2016, the __fp16 type is only available with GNU compilers on ARM systems help.addArgument('PETSc', '-with-precision=<__fp16,single,double,__float128>', nargs.Arg(None, 'double', 'Specify numerical precision')) help.addArgument('PETSc', '-with-scalar-type=', nargs.Arg(None, 'real', 'Specify real or complex numbers')) return def setupDependencies(self, framework): config.base.Configure.setupDependencies(self, framework) self.types = framework.require('config.types', self) self.languages = framework.require('PETSc.options.languages', self) self.compilers = framework.require('config.compilers', self) self.libraries = framework.require('config.libraries',self) self.setCompilers = framework.require('config.setCompilers', self) self.compilerFlags = framework.require('config.compilerFlags', self) self.types = framework.require('config.types', self) self.headers = framework.require('config.headers', self) self.libraries = framework.require('config.libraries', self) return def configureScalarType(self): '''Choose between real and complex numbers''' self.scalartype = self.framework.argDB['with-scalar-type'].lower() if self.scalartype == 'complex': self.addDefine('USE_COMPLEX', '1') if self.languages.clanguage == 'C' and not self.types.c99_complex: raise RuntimeError('C Compiler provided doest not support C99 complex') if self.languages.clanguage == 'Cxx' and not self.types.cxx_complex: raise RuntimeError('Cxx compiler provided does not support std::complex') if self.languages.clanguage == 'Cxx': self.addDefine('USE_CXXCOMPLEX',1) elif not self.scalartype == 'real': raise RuntimeError('--with-scalar-type must be real or complex') self.addDefine('USE_SCALAR_'+self.scalartype.upper(), '1') self.logPrint('Scalar type is '+str(self.scalartype)) # On apple isinf() and isnan() do not work when is included self.pushLanguage(self.languages.clanguage) if self.scalartype == 'complex' and self.languages.clanguage == 'Cxx': if self.checkLink('#include \n#include \n','double b = 2.0;int a = isnormal(b);\n'): self.addDefine('HAVE_ISNORMAL',1) if self.checkLink('#include \n#include \n','double b = 2.0;int a = isnan(b);\n'): self.addDefine('HAVE_ISNAN',1) if self.checkLink('#include \n#include \n','double b = 2.0;int a = isinf(b);\n'): self.addDefine('HAVE_ISINF',1) if self.checkLink('#include \n#include \n','double b = 2.0;int a = _isnan(b);\n'): self.addDefine('HAVE__ISNAN',1) if self.checkLink('#include \n#include \n','double b = 2.0;int a = _finite(b);\n'): self.addDefine('HAVE__FINITE',1) else: if self.checkLink('#include \n','double b = 2.0; int a = isnormal(b);\n'): self.addDefine('HAVE_ISNORMAL',1) if self.checkLink('#include \n','double b = 2.0; int a = isnan(b);\n'): self.addDefine('HAVE_ISNAN',1) if self.checkLink('#include \n','double b = 2.0; int a = isinf(b);\n'): self.addDefine('HAVE_ISINF',1) if self.checkLink('#include \n','double b = 2.0;int a = _isnan(b);\n'): self.addDefine('HAVE__ISNAN',1) if self.checkLink('#include \n','double b = 2.0;int a = _finite(b);\n'): self.addDefine('HAVE__FINITE',1) self.popLanguage() return def configurePrecision(self): '''Set the default real number precision for PETSc objects''' self.log.write('Checking C compiler works with __float128\n') self.have__float128 = 0 if self.libraries.check('quadmath','logq',prototype='#include ',call='__float128 f; logq(f);'): self.log.write('C compiler with quadmath library\n') self.have__float128 = 1 if hasattr(self.compilers, 'FC'): self.libraries.pushLanguage('FC') self.log.write('Checking Fortran works with quadmath library\n') if self.libraries.check('quadmath',' ',call = ' real*16 s,w; w = 2.0 ;s = cos(w)'): self.log.write('Fortran works with quadmath library\n') else: self.have__float128 = 0 self.log.write('Fortran fails with quadmath library\n') self.libraries.popLanguage() if self.have__float128: self.libraries.add('quadmath','logq',prototype='#include ',call='__float128 f; logq(f);') self.addDefine('HAVE_REAL___FLOAT128', '1') self.precision = self.framework.argDB['with-precision'].lower() if self.precision == '__fp16': # supported by gcc trunk if self.scalartype == 'complex': raise RuntimeError('__fp16 can only be used with real numbers, not complex') if hasattr(self.compilers, 'FC'): raise RuntimeError('__fp16 can only be used with C compiler, not Fortran') self.addDefine('USE_REAL___FP16', '1') self.addMakeMacro('PETSC_SCALAR_SIZE', '16') elif self.precision == 'single': self.addDefine('USE_REAL_SINGLE', '1') self.addMakeMacro('PETSC_SCALAR_SIZE', '32') elif self.precision == 'double': self.addDefine('USE_REAL_DOUBLE', '1') self.addMakeMacro('PETSC_SCALAR_SIZE', '64') elif self.precision == '__float128': # supported by gcc 4.6/gfortran and later if self.have__float128: self.addDefine('USE_REAL___FLOAT128', '1') self.addMakeMacro('PETSC_SCALAR_SIZE', '128') else: raise RuntimeError('__float128 support not found. --with-precision=__float128 works with gcc-4.6 and newer compilers.') else: raise RuntimeError('--with-precision must be __fp16, single, double, or __float128') self.logPrint('Precision is '+str(self.precision)) if self.precision == '__float128' and self.scalartype == 'complex' and self.languages.clanguage == 'Cxx': raise RuntimeError('Cannot use --with-precision=__float128 --with-scalar-type=complex and --with-clanguage=cxx because C++ std:complex class has no support for __float128, use --with-clanguage=c') return def configure(self): self.executeTest(self.configureScalarType) self.executeTest(self.configurePrecision) return