import os ##import par ##from abc_common import * import abc_common #this makes par the dominant module insteat of abc_common from par import * import sys import math import time from pyabc_split import * ##import pdb ##from IPython.Debugger import Tracer; debug_here = Tracer() #x('source ../../abc.rc') #abc_common.x('source ../../abc.rc') #IBM directories # directories = ['ibmhard'] ibmhard = (33,34,36,37,28,40,42,44,48,5,49,50,52,53,58,59,6,64,66,67,68,\ 69,70,71,72,73,74,75,76,78,79,80,81,82,83,84,86,9,87,89,90,0,10,\ 11,12,14,15,16,2,19,20,29,31,32) #directories = ['IBM_converted'] #ibm_convert = (3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,\ # 27,28,29,30,31,32,33,34,35,36,37,38,39,40,41) #IBM_converted = range(42)[3:] #the smaller files in ascending order #IBM_converted = (26,38,21,15,22,23,20,27,16,19,24,28,18,9,8,7,6,25,17,3,4) #the larger file in order (skipping 39) #IBM_converted = (39,5,40,41,13,12,10,14,11,31,33,36,29,34,35,37,30) IBM_converted = (5,40,41,13,12,10,14,11,31,33,36,29,34,35,37,30) def scorriter(): """ apply scorr with increasing conflicts up to 100""" x('time') run_command('r p_0.aig') n = 20 while n < 1000: print_circuit_stats() run_command('scorr -C %d'%n) x('ind -C %d'%1000) if is_unsat(): print 'n = %d'%n break n = 2*n x('time') def simplifyq(): # set_globals() n=n_ands() if n > 30000: if n<45000: abc("&get;&scl;&dc2;&put;dr;&get;&lcorr;&dc2;&put;dr;&get;&scorr;&fraig;&dc2;&put;dr;&get;&scorr -F 2;&dc2;&put;w temp.aig") else: abc("&get;&scl;&dc2;&put;dr;&get;&lcorr;&dc2;&put;dr;&get;&scorr;&fraig;&dc2;&put;dr;&get;&dc2;&put;w temp.aig") n = n_ands() if n < 30000: if n > 15000: abc("scl;rw;dr;lcorr;rw;dr;scorr;fraig;dc2;dr;dc2rs;w temp.aig") else: abc("scl;rw;dr;lcorr;rw;dr;scorr;fraig;dc2;dr;scorr -F 2;dc2rs;w temp.aig") if n < 10000: m = min( 30000/n, 8 ) if m > 2: abc( "scorr -F %d"%m) run_command("ps") def constraints(): """Determine if a set of files in a set of directories has constraints and print out the results.""" for s in directories: print("\ndirectory is "+s) jj=eval(s) print(jj) for j in range(len(jj)): x("\nr ../DIR/%s/p_%smp.aig"%(s,jj[j])) print("structural:") x('constr -s') print("inductive constraints:") x('constr ') def strip(): """Strip out each output of a multi-output example and write it into a separate file""" os.chdir('../DIR') abc('r p_all_smp.aig') po = n_pos() print_circuit_stats() for j in range(po): abc('r p_all_smp.aig') abc('cone -s -O %d'%j) abc('scl;rw;trm') abc('w p_%d.aig'%j) print_circuit_stats() def lst(list,match): result = [] for j in range(len(list)): if list[j][-len(match):] == match: result.append(list[j]) return result def lste(list,match,excp): result = [] for j in range(len(list)): if list[j][-len(match):] == match: if excp in list[j]: continue result.append(list[j]) return result def blif2aig(): """ converts blif files into aig files""" #os.chdir('../ibm-web') list_all = os.listdir('.') l_blif = lst(list_all,'.blif') for j in range(len(l_blif)): name = l_blif[j][:-5] print '%s '%name, abc('r %s.blif'%name) abc('st') abc('fold') abc('w %s.aig'%name) ps() def la(): return list_aig('') def list_aig(s): """ prnts out the sizes of aig files""" #os.chdir('../ibm-web') list_all = os.listdir('.') dir = lst(list_all,'.aig') dir.sort() for j in range(len(dir)): name = dir[j][:-4] if not s in name: continue print '%s '%name, abc('r %s.aig'%name) ps() return dir def convert_ibm(): """ converts blif files (with constraints?) into aig files""" os.chdir('../ibm-web') list_ibm = os.listdir('.') l_blif = lst(list_ibm,'.blif') for j in range(len(l_blif)): name = l_blif[j][:-5] run_command('read_blif %s.blif'%name) abc('undc') abc('st -i') abc('zero') run_command('w %s.aig'%name) """if a<100000000: f = min(8,max(1,40000/a)) #run_command('scorr -c -F %d'%f) #print 'Result of scorr -F %d: '%f, print_circuit_stats() run_command('w p_%d.aig'%j)""" def cl(): cleanup() def cleanup(): list = os.listdir('.') for j in range(len(list)): name = list[j] if (('_smp' in name) or ('_save' in name) or ('_backup' in name) or ('_osave' in name) or ('_best' in name) or ('_gsrm' in name) or ('gore' in name) or ('_bip' in name) or ('sm0' in name) or ('gabs' in name) or ('temp' in name) or ('__' in name) or ('greg' in name) or ('tf2' in name) or ('gsrm' in name) or ('_rpm' in name ) or ('gsyn' in name) or ('beforerpm' in name) or ('afterrpm' in name) or ('initabs' in name) or ('.status' in name) or ('_init' in name) or ('_osave' in name) or ('tt_' in name) or ('_before' in name) or ('_after' in name) or ('_and' in name) or ('_final' in name) or ('_spec' in name) or ('temp.a' in name) or ('_sync' in name) ): os.remove(name) def simp_mbi(): os.chdir('../mbi') list_ibm = os.listdir('.') l_aig = lst(list_ibm,'.aig') for j in range(len(l_aig)): name = l_aig[j][:-4] run_command('r %s.aig'%name) run_command('st') print '\n%s: '%name print_circuit_stats() quick_simp() scorr_comp() simplify() run_command('w %s_smp.aig'%name) def strip_names(): os.chdir('../mbi') list_ibm = os.listdir('.') l_aig = lst(list_ibm,'.aig') for j in range(len(l_aig)): name = l_aig[j][:-4] run_command('r %s.aig'%name) run_command('st') print '\n%s: '%name print_circuit_stats() quick_simp() scorr_comp() simplify() run_command('w %s_smp.aig'%name) def map_ibm(): os.chdir('../ibmmike2') list_ibm = os.listdir('.') l_blif = lst(list_ibm,'.blif') result = [] print len(l_blif) for j in range(len(l_blif)): name = l_blif[j][:-5] result.append('%s = %d'%(name,j)) return result def absn(a,c,s): """ testing Niklas abstraction with various conflict limits a= method (0 - regular cba, 1 - pure pba, 2 - cba with pba at the end, 3 cba and pba interleaved at each step c = conflict limit s = No. of stable steps without cex""" global G_C, G_T, latches_before_abs, x_factor, f_name set_globals() latches_before_abs = n_latches() print 'Start: ', print_circuit_stats() print 'Een abstraction params: Method #%d, %d conflicts, %d stable'%(a,c,s) run_command('&get; &abs_newstart -v -A %d -C %d -S %d'%(a,c,s)) bmcdepth = n_bmc_frames() print 'BMC depth = %d'%n_bmc_frames() abc('&w absn_greg.aig; &abs_derive; &put; w absn_gabs.aig') print 'Final abstraction: ', print_circuit_stats() write_file('absn') return "Done" def xfiles(): global f_name #output = sys.stdout #iterate over all ESS files #saveout = sys.stdout #output = open("ibm_log.txt",'w') # sys.stdout = output os.chdir('../ess/f58m') print 'Directories are %s'%directories for s in directories: sss= '../%s'%s os.chdir(sss) print "\nDirectory is %s\n"%s jj=eval(s) print (jj) run_command('time') for j in range(len(jj)): print ' ' set_fname('p_%dsmp23'%jj[j])#file f_name.aig is read in print 'p_%dsmp23'%jj[j] run_command('time') result = dprove3(1) print result run_command('time') run_command('time') os.chdir('../../python') #sys.stdout = saveout #output.close() def sublist(L,I): z = [] for i in range(len(I)): s = L[I[i]], s = list(s) z = z + s return z def s2l(s): """ takes the string s divided by '\n' and makess a list of items""" result = [] while len(s)>2: j = s.find('\n') result.append(s[:j]) s = s[j+1:] return result def select(lst, s): result = [] print lst for j in range(len(lst)): if s in lst[j]: s1 = lst[j] k = s1.find(':') s1 = s1[:k] result.append(s1) return result def process_result(name): f = open(name,'r') s = f.read() f.close() lst = s2l(s) result = select(lst,'Timeout') return result def main(): stackno = 0 if len(sys.argv) != 2: print "usage: %s "%sys.argv[0] sys.exit(1) aig_filename = sys.argv[1] x("source ../../abc.rc") read(aig_filename) dprove3(1) # a test to whether the script is being called from the command line if __name__=="__main__": main()