def version_dict(): """ A dictionary describing the version of Sage. INPUT: nothing OUTPUT: dictionary with keys 'major', 'minor', 'tiny', 'prerelease' This process the Sage version string and produces a dictionary. It expects the Sage version to be in one of these forms: N.N N.N.N N.N.N.N N.N.str N.N.N.str N.N.N.N.str where 'N' stands for an integer and 'str' stands for a string. The first integer is stored under the 'major' key and the second integer under 'minor'. If there is one more integer, it is stored under 'tiny'; if there are two more integers, then they are stored together as a float N.N under 'tiny'. If there is a string, then the key 'prerelease' returns True. For example, if the Sage version is '3.2.1', then the dictionary is {'major': 3, 'minor': 2, 'tiny': 1, 'prerelease': False}. If the Sage version is '3.2.1.2', then the dictionary is {'major': 3, 'minor': 2, 'tiny': 1.200..., 'prerelease': False}. If the Sage version is '3.2.alpha0', then the dictionary is {'major': 3, 'minor': 2, 'tiny': 0, 'prerelease': True}. EXAMPLES: sage: from sage.misc.banner import version_dict sage: print "Sage major version is %s" % version_dict()['major'] Sage major version is ... sage: version_dict()['major'] == int(sage.version.version.split('.')[0]) True """ v = SAGE_VERSION.split('.') dict = {} dict['major'] = int(v[0]) dict['minor'] = int(v[1]) dict['tiny'] = 0 dict['prerelease'] = False try: dummy = int(v[-1]) except ValueError: # when last entry is not an integer dict['prerelease'] = True if (len(v) == 3 and not dict['prerelease']) or len(v) > 3: dict['tiny'] = int(v[2]) try: teeny = int(v[3]) dict['tiny'] += 0.1 * teeny except (ValueError, IndexError): pass return dict
from lmfdb.utils import make_logger import flask ## Some common definitions to use in this module. default_prec = 10 # The default number of terms in a q-expansion default_bprec = 53 # The default number of bits of precision to compute for floating point data default_display_bprec = 26 # The default number of bits of precision to display for floating point data default_max_height = 90 from sage.env import SAGE_VERSION version_major, version_minor = [int(x) for x in SAGE_VERSION.split('.')[:2]] #if (version_major, version_minor) >= (6,9): # emf_version = 1.3 #elif (version_major, version_minor) >= (6,8): # emf_version = 1.3 #else: # emf_version = 1.1 emf_version = 1.3 EMF_TOP = "Holomorphic Modular Forms" # The name to use for the top of this catergory EMF = "emf" # The current blueprint name emf = flask.Blueprint(EMF, __name__, template_folder="views/templates", static_folder="views/static") emf_logger = make_logger(emf) emf_logger.info("Initializing elliptic modular forms blueprint with Sage version %s, emf version %s" % (SAGE_VERSION, emf_version)) ### Maximum values for computations N_max_comp = 50 k_max_comp = 12 N_max_Gamma1_fdraw = 33 N_max_Gamma0_fdraw = 300 N_max_db = 5000
from lmfdb.utils import make_logger import flask ## Some common definitions to use in this module. default_prec = 10 # The default number of terms in a q-expansion default_bprec = 53 # The default number of bits of precision to compute for floating point data default_display_bprec = 26 # The default number of bits of precision to display for floating point data default_max_height = 90 from sage.env import SAGE_VERSION version_major, version_minor = [int(x) for x in SAGE_VERSION.split('.')[:2]] #if (version_major, version_minor) >= (6,9): # emf_version = 1.3 #elif (version_major, version_minor) >= (6,8): # emf_version = 1.3 #else: # emf_version = 1.1 emf_version = 1.3 EMF_TOP = "Holomorphic Modular Forms" # The name to use for the top of this catergory EMF = "emf" # The current blueprint name emf = flask.Blueprint(EMF, __name__, template_folder="views/templates", static_folder="views/static") emf_logger = make_logger(emf) emf_logger.info( "Initializing elliptic modular forms blueprint with Sage version %s, emf version %s" % (SAGE_VERSION, emf_version)) ### Maximum values for computations