def divide_vars(self, var_decl): self.var_list = {} for _stmt in var_decl.split('\n'): stmt = _stmt.strip() if len(stmt) > 0: tmp = stmt.split(' ') var_type = tmp[0] name = tmp[-1][:-1] #skip ';' self.var_list[name] = Var(var_type)
def __init__(self, canvas, row, col, my=True, tag="empty"): self.c = canvas self.row = row self.col = col self.my = my self.var = Var() self.tag = tag self.index = None self.draw()
def __init__(self, canvas, my=True): self.c = canvas self.my = my self.var = Var() if my: x = self.var.lr_span else: x = self.var.lr_span + self.var.center_span + self.var.see_field_width self.index = self.c.create_rectangle(x, self.var.top_span, \ x + self.var.see_field_width, \ self.var.top_span + self.var.see_field_height, \ fill = self.var.see_color, outline = self.var.see_color)
def create_used_var(self, var_name): """Creates Var instance. Sets the instance to this object's used_variable. Args: var_name: the variable name used Returns: A Var instance """ self.used_variable = Var(name=var_name) return self.used_variable
def divide_params(self, func_decl): self.param_name = [] #这个字段用来按顺序专门记录各个参数名 self.param_list = {} para_decl = re.findall(Context.PARENTHESE_PATTERN, func_decl)[0].strip('()') for _stmt in para_decl.split(','): stmt = _stmt.strip() if len(stmt) > 0: tmp = stmt.split(' ') var_type = tmp[0] name = tmp[-1] self.param_list[name] = Var(var_type) self.param_name.append(name)
def __init__(self, canvas, number, direction='h', my=True): #number: 0 - 4, 1..2 - 3, 3..5 - 2, 6..9 - 1 палубный self.c = canvas self.my = my self.var = Var() self.number = number self.direction = direction self.see_blocks = [] self.mini_blocks = [] self.live = "live" #demage, kill self.block_status = [] self.status = "none" self.x = 0 self.y = 0 self.drawed = False self.selected = False self.draw_mini()
def newvar(self, name, setnames=None, header=None, par=False): """Create a new variable and add it to the model. Args: name (str): Name of variable or parameter setnames (list): List of set names header (str): GEMPACK header par (bool): True if a parameter Returns: Var: new object. """ _add_name(name, self.dat_names) item = Var(name, setnames, header, par=par) self.dats[name] = item if par: self.par_names.append(name) else: self.var_names.append(name) return item
#! /usr/bin/env python3 # _*_ coding: utf-8 _*_ import pygame # pygame from var import Var # for const from ship import Ship # ship from scores import Scores from sounds import Sounds import game_functions as gf # Game functions from pygame.sprite import Group pygame.init() ai_var = Var() screen = pygame.display.set_mode([ai_var.screen_width, ai_var.screen_height]) pygame.display.set_caption("Alien War") ship = Ship(screen) sc = Scores(screen, ai_var) sd = Sounds() timer = pygame.time.Clock() bullets = Group() aliens = Group() def main(): while sc.game_active: # Game Started gf.check_events(ship, ai_var, screen, bullets, sc, sd) # Check events ship.update(ai_var) # Update the status of the ship bullets.update() aliens.update(sc) gf.update_aliens(aliens, screen, ai_var, bullets, sc, ship, sd) gf.remove(bullets, aliens, screen)
bins_invM_3 = generateLogBins(8,130,200) bins_invM_4 = generateLogBins(6,90,200) bins_Zpeak = [50,70,74,77,80,82,83,84,85,86,87,88,89,90,91,92,93,94,95,97,99,102,105,110,130] bins_Zpeak2 = [50,80,100,130] bins_met = generateLogBins(15,1,1000) bins_met_2 = generateLogBins(50,25,2000) """ bins_pt_2 = generateLogBins(20, 30, 1000) ## Event variables ## --------------------------------------- averageIntPerXing = Var( name='averageIntPerXing', path='event', xmin=0, xmax=45, log=False, ) actualIntPerXing = Var( name='actualIntPerXing', path='event', xmin=0, xmax=45, log=False, ) NPV = Var( name='NPV', path='event',
# encoding: utf-8 ''' vars.py description: variables for plotting ''' ## modules from var import Var ## Event variables ## --------------------------------------- nmuons = Var( name='nmuons', path='event', xmin=0, xmax=5, log=False, ) n_vx = Var( name='n_vx', path='event', xmin=0, xmax=14, # rebin = 0, log=False, ) ## Muon variables ## ---------------------------------------
# encoding: utf-8 ''' vars.py description: variables for all the channels ''' ## modules from var import Var from funcs import generateLogBins ## Cutflows ## --------------------------------------- cutflow_weighted = Var(name='cutflow_weighted_mumu', log=False) cutflow = Var(name='cutflow_mumu', log=False) cutflow_weighted_mu_pairs = Var(name='cutflow_weighted_mumu_mu_pairs', log=False) cutflow_mu_pairs = Var(name='cutflow_mumu_mu_pairs', log=False) cutflow_presel = Var(name='cutflow_presel', log=False) cutflow_weighted_presel = Var(name='cutflow_weighted_presel', log=False) cutflow_ZCR = Var(name='cutflow_ZCR', log=False) cutflow_weighted_ZCR = Var(name='cutflow_weighted_ZCR', log=False) bins_pt = generateLogBins(10, 30, 400) bins_pt_4lep = generateLogBins(5, 30, 200) bins_pt_2 = generateLogBins(8, 30, 400) #bins_mVis = generateLogBins(25,20,900) # ttbar CR #bins_mVis = generateLogBins(15,60,200) # bins for CRs #bins_mVis = generateLogBins(20,30,3000) # bins for plotting #bins_mVis = generateLogBins(5,200,900) #bins for SRs bins_mVis = generateLogBins(23, 200, 1350) #bins for SRs
def parse(f): def add_var(d, v): # Do nothing if var is none. Gracefully handles first variable, # and after that point var is never None if v is None: return if v.ctype == 'string' and v.size is None: raise ValueError('String %s has no length' % v.name) if v.address is None: raise ValueError('Var %s has no address' % v.name) if v.vartype is None: raise ValueError('Var %s has no type' % v.name) d.vars.append(v) device = None var = None group = None custom = False cur_address = 0 cur_interval = 0 cur_filter = None cur_iwrite = None for line in f: line = line.strip() if line == '': pass elif line[0] == '$': pass elif line[0] == '@': line_result = line.split(',', 3) for i in range(len(line_result)): line_result[i] = line_result[i].strip('@' + string.whitespace) if device is None: device = Device(line_result[0]) group = line_result[0] else: err = 'Duplicate device line in file (Had %s, now have %s)' \ % (device.name, line_result[0]) raise ValueError(err) device.id = int(line_result[1]) if line_result[2] == '/dev/ttyUSB0': device.path = 'autodetect' else: device.path = line_result[2] device.baud_rate = int(line_result[3]) elif line[0] == ';': line = line.strip(';' + string.whitespace) if line.startswith('group:'): line_result = line[6:].split(',', 2) for i in range(len(line_result)): line_result[i] = line_result[i].strip() group = line_result[0] if device is None: raise ValueError('Group %s has no device' % group) else: if bools[line_result[1]] == True: if group not in device.write_only_groups: device.write_only_groups.append(group) else: if group in device.write_only_groups: raise ValueError('Group %s is already write only' % group) elif line.startswith('filter:'): line_result = line[7:].strip() cur_filter = line_result elif line.startswith('no_initial_write'): cur_iwrite = True elif line[0] == '#': line_result = line.split(',', 3) for i in range(len(line_result)): line_result[i] = line_result[i].strip('#' + string.whitespace) cur_address = int(line_result[0]) cur_interval = int(line_result[1]) custom = bools[line_result[2]] elif custom == True: line_result = line.split(',', 5) for i in range(len(line_result)): line_result[i] = line_result[i].strip() (g, v) = line_result[2].split('/', 1) if device is None: raise ValueError('Var %s has no device' % g) var = Var(g, v) var.vartype = line_result[1] if line_result[1] == 'string': var.ctype = 'string' else: var.ctype = ctypes[line_result[1]] var.size = int(line_result[0]) var.readonly = bools[line_result[4]] var.address = cur_address cur_address += int(line_result[0]) var.interval = cur_interval if cur_filter is not None: var.filter = cur_filter cur_filter = None if cur_iwrite is not None: var.iwrite = False cur_iwrite = None add_var(device, var) if device.path is None: raise ValueError('Device %s has no path' % device.name) if device.id is None and device.path == 'autodetect': raise ValueError('Device %s is autodetect but no id' % device.name) return device
# encoding: utf-8 ''' vars.py description: variables for plotting ''' ## modules from var import Var ## Event variables ## --------------------------------------- nmuons = Var( name='nmuons', path='event', xmin=0, xmax=5, log=False, ) ## Muon variables ## --------------------------------------- mu_pt = Var( name='mu_pt', path='muons', xmin=0, xmax=150, rebin=10, log=False, )