''' Set up Visual Sudio to build a specified MPIR configuration Copyright (C) 2011, 2012, 2013, 2014 Brian Gladman ''' from __future__ import print_function from operator import itemgetter from os import scandir, walk, unlink, makedirs, sep from os.path import split, splitext, isdir, relpath, join, exists from os.path import join, abspath, dirname, normpath, split from copy import deepcopy from sys import argv, exit, path from filecmp import cmp from shutil import copy from re import compile, search from collections import defaultdict from time import sleep from _msvc_filters import gen_filter from _msvc_project import Project_Type, gen_vcxproj from _msvc_solution import msvc_solution try: input = raw_input except NameError: pass vs_version = 19 if len(argv) > 1: vs_version = int(argv[1]) solution_name = 'mpir.sln' build_dir_name = 'vs{0:d}'.format(vs_version) build_root_dir = dirname(__file__) mpir_root_dir, build_root_name = split(build_root_dir) solution_dir = join(build_root_dir, build_dir_name) path.append(solution_dir) from version_info import vs_info if len(argv) > 2: vs_info['windows_sdk'] = argv[2] # for script debugging debug = False # either add a prebuild step to the project files or do it here add_prebuild = True # output a build project for the C++ static library add_cpp_lib = True # The path to the mpir root directory cf_dir = './' cfg_dir = join(solution_dir, 'cdata') # paths that might include source files(*.c, *.h, *.asm) c_directories = ('', build_root_name, 'fft', 'mpf', 'mpq', 'mpz', 'printf', 'scanf') # files that are to be excluded from the build exclude_file_list = ('config.guess', 'cfg', 'getopt', 'getrusage', 'gettimeofday', 'cpuid', 'obsolete', 'win_timing', 'gmp-mparam', 'tal-debug', 'tal-notreent', 'new_fft', 'new_fft_with_flint', 'compat', 'udiv_w_sdiv') # copy from file ipath to file opath but avoid copying if # opath exists and is the same as ipath (this is to avoid # triggering an unecessary rebuild). def write_f(ipath, opath): if exists(ipath) and not isdir(ipath): if exists(opath): if isdir(opath) or cmp(ipath, opath): return copy(ipath, opath) # append a file (ipath) to an existing file (opath) def append_f(ipath, opath): try: with open(opath, 'ab') as out_file: try: with open(ipath, 'rb') as in_file: buf = in_file.read(8192) while buf: out_file.write(buf) buf = in_file.read(8192) except IOError: print('error reading {0:s} for input'.format(f)) return except IOError: print('error opening {0:s} for output'.format(opath)) # copy files in a list from in_dir to out_dir def copy_files(file_list, in_dir, out_dir): try: makedirs(out_dir) except IOError: pass for f in file_list: copy(join(in_dir, f), out_dir) # Recursively search a given directory tree to find header, # C and assembler code files that either replace or augment # the generic C source files in the input list 'src_list'. # As the directory tree is searched, files in each directory # become the source code files for the current directory and # the default source code files for its child directories. # # Lists of default header, C and assembler source code files # are maintained as the tree is traversed and if a file in # the current directory matches the name of a file in the # default file list (name matches ignore file extensions), # the name in the list is removed and is replaced by the new # file found. On return each directory in the tree had an # entry in the returned dictionary that contains: # # 1. The list of header files # # 2. The list of C source code files for the directory # # 3. The list of assembler code files that replace C files # # 4. The list of assembler files that are not C replacements # def find_asm(path, cf_list): d = dict() for root, dirs, files in walk(path): if '.svn' in dirs: # ignore SVN directories dirs.remove('.git') if 'fat' in dirs: # ignore fat directory dirs.remove('fat') relp = relpath(root, path) # path from asm root relr = relpath(root, mpir_root_dir) # path from MPIR root if relp == '.': # set C files as default relp = h = t = '' d[''] = [[], deepcopy(cf_list), [], [], relr] else: h, _ = split(relp) # h = parent, t = this directory # copy defaults from this directories parent d[relp] = [deepcopy(d[h][0]), deepcopy(d[h][1]), deepcopy(d[h][2]), deepcopy(d[h][3]), relr] for f in files: # for the files in this directory n, x = splitext(f) if x == '.h': # if it is a header file, remove for cf in reversed(d[relp][0]): # any matching default if cf[0] == n: d[relp][0].remove(cf) d[relp][0] += [(n, x, relr)] # and add the local header file if x == '.c': # if it is a C file, remove for cf in reversed(d[relp][1]): # any matching default if cf[0] == n: d[relp][1].remove(cf) d[relp][1] += [(n, x, relr)] # and add the local C file if x == '.asm': # if it is an assembler file match = False for cf in reversed(d[relp][1]): # remove any matching C file if cf[0] == n: d[relp][1].remove(cf) match = True break for cf in reversed(d[relp][2]): # and remove any matching if cf[0] == n: # assembler file d[relp][2].remove(cf) match = True break if match: # if a match was found, put the d[relp][2] += [(n, x, relr)] # file in the replacement list else: # otherwise look for it in the for cf in reversed(d[relp][3]): # additional files list if cf[0] == n: d[relp][3].remove(cf) break d[relp][3] += [(n, x, relr)] for k in d: # additional assembler list for i in range(4): d[k][i].sort(key=itemgetter(0)) # sort the four file lists return d # create 4 lists of c, h, cc (or cpp) and asm (or as) files in a directory def find_src(dir_list): # list number from file extension di = {'.h': 0, '.c': 1, '.cc': 2, '.cpp': 2, '.asm': 3, '.as': 3} list = [[], [], [], []] for d in dir_list: for f in scandir(join(mpir_root_dir, d)): if f == '.svn': continue # ignore SVN directories if not isdir(f): n, x = splitext(f) # split into name + extension if x in di and not n in exclude_file_list: list[di[x]] += [(n, x, d)] # if of the right type and is for x in list: # not in the exclude list x.sort(key=itemgetter(2, 0, 1)) # add it to appropriate list return list # scan the files in the input set and find the symbols # defined in the files fr_sym = compile(r'LEAF_PROC\s+(\w+)') lf_sym = compile(r'FRAME_PROC\s+(\w+)') wf_sym = compile(r'WIN64_GCC_PROC\s+(\w+)') g3_sym = compile(r'global\s+___g(\w+)') g2_sym = compile(r'global\s+__g(\w+)') def get_symbols(setf, sym_dir): for f in setf: fn = join(mpir_root_dir, f[2], f[0] + f[1]) with open(fn, 'r') as inf: lines = inf.readlines() for l in lines: m = fr_sym.search(l) if m: sym_dir[f] |= set((m.groups(1)[0],)) m = lf_sym.search(l) if m: sym_dir[f] |= set((m.groups(1)[0],)) m = wf_sym.search(l) if m: sym_dir[f] |= set((m.groups(1)[0],)) m = g3_sym.search(l) if m: sym_dir[f] |= set((m.groups(1)[0],)) else: m = g2_sym.search(l) if m: sym_dir[f] |= set((m.groups(1)[0],)) def file_symbols(cf): sym_dir = defaultdict(set) for c in cf: if c == 'fat': continue setf = set() for f in cf[c][2] + cf[c][3]: setf |= set((f,)) get_symbols(setf, sym_dir) return sym_dir def gen_have_list(c, sym_dir, out_dir): set_sym2 = set() for f in c[2]: set_sym2 |= sym_dir[f] set_sym3 = set() for f in c[3]: set_sym3 |= sym_dir[f] c += [sorted(list(set_sym2)), sorted(list(set_sym3))] fd = join(out_dir, c[4]) try: makedirs(fd) except IOError: pass with open(join(fd, 'cfg.h'), 'w') as outf: for sym in sorted(set_sym2 | set_sym3): print(sym, file=outf) # print('/* assembler symbols also available in C files */', file=outf) # for sym in sorted(set_sym2): # print(sym, file=outf) # print('/* assembler symbols not available in C files */', file=outf) # for sym in sorted(set_sym3): # print(sym, file=outf) # compile list of C files t = find_src(c_directories) c_hdr_list = t[0] c_src_list = t[1] if t[2] or t[3]: print('found C++ and/or assembler file(s) in a C directory') if t[2]: for f in t[2]: print(f) print() if t[3]: for f in t[3]: print(f) print() # compile list of C++ files t = find_src(['cxx']) cc_hdr_list = t[0] cc_src_list = t[2] if t[1] or t[3]: print('found C and/or assembler file(s) in a C++ directory') if t[1]: for f in t[1]: print(f) print() if t[3]: for f in cc_src_list: print(f) print() # compile list of C files in mpn\generic t = find_src([r'mpn\generic']) gc_hdr_list = t[0] gc_src_list = t[1] if t[2] or t[3]: print('found C++ and/or assembler file(s) in a C directory') if t[2]: for f in gc_hdr_list: print(f) print() if t[3]: for f in gc_src_list: print(f) print() # prepare the generic C build mpn_gc = dict((('gc', [gc_hdr_list, gc_src_list, [], []]),)) # prepare the list of Win32 builds mpn_32 = find_asm(join(mpir_root_dir, 'mpn/x86w'), gc_src_list) syms32 = file_symbols(mpn_32) del mpn_32[''] # prepare the list of x64 builds mpn_64 = find_asm(join(mpir_root_dir, 'mpn/x86_64w'), gc_src_list) syms64 = file_symbols(mpn_64) del mpn_64[''] nd_gc = len(mpn_gc) nd_32 = nd_gc + len(mpn_32) nd_nd = nd_32 + len(mpn_64) # now ask user which builds they wish to generate while True: cnt = 0 for v in sorted(mpn_gc): cnt += 1 print('{0:2d}. {1:24s} '.format(cnt, v.replace('\\', '_'))) for v in sorted(mpn_32): cnt += 1 print('{0:2d}. {1:24s} (win32)'.format(cnt, v.replace('\\', '_'))) for v in sorted(mpn_64): cnt += 1 print('{0:2d}. {1:24s} (x64)'.format(cnt, v.replace('\\', '_'))) fs = 'Space separated list of builds (1..{0:d}, 0 to exit)? ' s = input(fs.format(cnt)) n_list = [int(c) for c in s.split()] if 0 in n_list: exit() if any(n < 1 or n > nd_nd for n in n_list): print('list contains invalid build numbers') sleep(2) else: break # multiple builds must each have their own prebuilds if len(n_list) > 1: add_prebuild = True # now generate the requested builds # input any existing projects in the solution (*.sln) file solc = msvc_solution(abspath(join(solution_dir, solution_name))) hf_list = ('config.h', 'gmp-impl.h', 'longlong.h', 'mpir.h', 'gmp-mparam.h') for n in n_list: if 0 < n <= nd_gc: config = sorted(mpn_gc)[n - 1] mode = ('Win32', 'x64') mpn_f = mpn_gc[config] elif nd_gc < n <= nd_32: config = sorted(mpn_32)[n - 1 - nd_gc] gen_have_list(mpn_32[config], syms32, cfg_dir) mode = ('Win32', ) mpn_f = mpn_32[config] elif nd_32 < n <= nd_nd: config = sorted(mpn_64)[n - 1 - nd_32] gen_have_list(mpn_64[config], syms64, cfg_dir) mode = ('x64', ) mpn_f = mpn_64[config] else: print('internal error') exit() if mode[0] == 'x64': for l in mpn_f[1:]: for t in l: if t[0].startswith('preinv_'): if 'x64' in mode and t[0] == 'preinv_divrem_1': l.remove(t) print(config, mode) if not add_prebuild: # generate mpir.h and gmp.h from gmp_h.in gmp_h = ''' #ifdef _WIN32 # ifdef _WIN64 # define _LONG_LONG_LIMB 1 # define GMP_LIMB_BITS 64 # else # define GMP_LIMB_BITS 32 # endif # define __GMP_BITS_PER_MP_LIMB GMP_LIMB_BITS # define SIZEOF_MP_LIMB_T (GMP_LIMB_BITS >> 3) # define GMP_NAIL_BITS 0 #endif ''' try: lines = open(join(mpir_root_dir, 'gmp-h.in'), 'r').readlines() except IOError: print('error attempting to read from gmp_h.in') exit() try: tfile = join(mpir_root_dir, 'tmp.h') with open(tfile, 'w') as outf: first = True for line in lines: if search(r'@\w+@', line): if first: first = False outf.writelines(gmp_h) else: outf.writelines([line]) # write result to mpir.h but only overwrite the existing # version if this version is different (don't trigger an # unnecessary rebuild) write_f(tfile, join(mpir_root_dir, 'mpir.h')) write_f(tfile, join(mpir_root_dir, 'gmp.h')) unlink(tfile) except IOError: print('error attempting to create mpir.h from gmp-h.in') exit() # generate config.h try: tfile = join(mpir_root_dir, 'tmp.h') if 5 < len(mpn_f) < 8: if len(mpn_f) == 6: t = sorted(mpn_f[5]) else: t = sorted(mpn_f[5] + mpn_f[6]) with open(tfile, 'w') as outf: for i in t: outf.writelines(['#define HAVE_NATIVE_{0:s} 1\n'.format(i)]) append_f(join(cf_dir, 'cfg.h'), tfile) write_f(tfile, join(mpir_root_dir, 'config.h')) unlink(tfile) except IOError: print('error attempting to write to {0:s}'.format(tfile)) exit() # generate longlong.h and copy gmp-mparam.h try: li_file = None for i in mpn_f[0]: if i[0] == 'longlong_inc': li_file = join(mpir_root_dir, join(i[2], r'longlong_inc.h')) if i[0] == 'gmp-mparam': write_f(join(mpir_root_dir, join(i[2], 'gmp-mparam.h')), join(mpir_root_dir, 'gmp-mparam.h')) if not li_file or not exists(li_file): print('error attempting to read {0:s}'.format(li_file)) exit() tfile = join(mpir_root_dir, 'tmp.h') write_f(join(mpir_root_dir, 'longlong_pre.h'), tfile) append_f(li_file, tfile) append_f(join(mpir_root_dir, 'longlong_post.h'), tfile) write_f(tfile, join(mpir_root_dir, 'longlong.h')) unlink(tfile) except IOError: print('error attempting to generate longlong.h') exit() # generate the vcxproj and the IDE filter files # and add/replace project in the solution file af_list = sorted(mpn_f[2] + mpn_f[3]) # find the gmp-mparam.h file to be used for name, ty, loc in mpn_f[0]: if name == 'gmp-mparam': loc = loc.replace('mpn\\x86w', '', 1) loc = loc.replace('mpn\\x86_64w', '', 1) if loc.startswith('\\'): loc = loc[1:] mp_dir = loc if loc else config break else: mp_dir = config cf = config.replace('\\', '_') # set up DLL build proj_name = 'mpir' vcx_name = 'dll_mpir_' + cf vcx_path = abspath(join(solution_dir, vcx_name, vcx_name + '.vcxproj')) guid = solc.get_project_guid(vcx_name, vcx_path) gen_filter(vcx_path + '.filters', mpir_root_dir, hf_list, c_src_list + cc_src_list + mpn_f[1], af_list, 12.0) gen_vcxproj(vcx_path, mpir_root_dir, proj_name, guid, mp_dir, mode, Project_Type.DLL, False, hf_list, c_src_list + cc_src_list + mpn_f[1], af_list, add_prebuild, vs_info) solc.add_project('', vcx_name, vcx_path, guid, mode) # set up LIB build proj_name = 'mpir' vcx_name = 'lib_mpir_' + cf vcx_path = abspath(join(solution_dir, vcx_name, vcx_name + '.vcxproj')) guid = solc.get_project_guid(vcx_name, vcx_path) gen_filter(vcx_path + '.filters', mpir_root_dir, hf_list, c_src_list + mpn_f[1], af_list, 12.0) gen_vcxproj(vcx_path, mpir_root_dir, proj_name, guid, mp_dir, mode, Project_Type.LIB, False, hf_list, c_src_list + mpn_f[1], af_list, add_prebuild, vs_info) solc.add_project('', vcx_name, vcx_path, guid, mode) # C++ library build if add_cpp_lib: proj_name = 'mpirxx' mode = ('Win32', 'x64') vcx_name = 'lib_mpir_cxx' vcx_path = abspath(join(solution_dir, vcx_name, vcx_name + '.vcxproj')) th = hf_list + ('mpirxx.h',) guid = solc.get_project_guid(vcx_name, vcx_path) gen_filter(vcx_path + '.filters', mpir_root_dir, th, cc_src_list, '', 12.0) gen_vcxproj(vcx_path, mpir_root_dir, proj_name, guid, '', mode, Project_Type.LIB, True, th, cc_src_list, '', add_prebuild, vs_info) solc.add_project('', vcx_name, vcx_path, guid, mode) solc.write_solution(vs_info) # the following code is for diagnostic purposes only if debug: for x in sorted(mpn_f[0] + mpn_f[1]): print(x) print() for x in sorted(mpn_f[2] + mpn_f[3]): print(x) print() # mpn_files = dict() # mpn_files.update(mpn_32) # mpn_files.update(mpn_64) for x in mpn_f[config]: print(x) if False: print('1:') for y in mpn_files[x][0]: print(y) print('2:') for y in mpn_files[x][1]: print(y) print('3:') for y in mpn_files[x][2]: print(y) print('4:') for y in mpn_files[x][3]: print(y) print() for y in sorted(x[2] + x[3]): print(y) print() print() if debug: mpn_dirs = ('mpn/generic', 'mpn/x86_64w', 'mpn/x86w') # compile a list of files in directories in 'dl' under root 'r' with extension 'p' def findf(r, dl, p): l = [] for d in dl: for root, dirs, files in walk(r + d): relp = relpath(root, r) # path relative to mpir root directory if '.svn' in dirs: dirs.remove('.svn') # ignore SVN directories if d == '' or root.endswith(build_vc): for d in reversed(dirs): # don't scan build.vc subdirectories dirs.remove(d) for f in files: if f.endswith(p): l += [(tuple(relp.split('\\')), f)] return sorted(l) hdr_list = findf(mpir_root_dir, c_directories, '.h') for x in hdr_list: print(x) print() src_list = findf(mpir_root_dir, c_directories, '.c') for x in src_list: print(x) print() cpp_list = findf(mpir_root_dir, ['cpp'], '.cc') for x in cpp_list: print(x) print() gnc_list = findf(mpir_root_dir + 'mpn/', ['generic'], '.c') for x in gnc_list: print(x) print() w32_list = findf(mpir_root_dir + 'mpn/', ['x86w'], '.asm') for x in w32_list: print(x) print() x64_list = findf(mpir_root_dir + 'mpn/', ['x86_64w'], '.asm') for x in x64_list: print(x) print() nd = dict([]) for d, f in gnc_list: n, x = splitext(f) nd[n] = nd.get(n, []) + [(d, 'c')] for d, f in x64_list: n, x = splitext(f) nd[n] = nd.get(n, []) + [(d, 'asm')] for d, f in w32_list: n, x = splitext(f) nd[n] = nd.get(n, []) + [(d, 'asm')] for x in nd: print(x, nd[x])