lean2/bin/linja

#!/usr/bin/env python2
# -*- coding: utf-8 -*-
import fnmatch
import os
import platform
import stat
import subprocess
import sys
import threading
import urllib
import glob
import argparse

g_lean_path    = "USE DEFAULT"
g_ninja_path   = "USE DEFAULT"
g_working_dir  = os.getcwd()
g_lean_files   = []
g_linja_path   = os.path.realpath(__file__)
g_lean_bin_dir = os.path.dirname(g_linja_path)
g_lean_options = []

def which(program):
    """ Lookup program in a path """
    import os
    def is_exe(fpath):
        return os.path.isfile(fpath) and os.access(fpath, os.X_OK)
    fpath, fname = os.path.split(program)
    if fpath:
        if is_exe(program):
            return program
    else:
        for path in os.environ["PATH"].split(os.pathsep):
            path = path.strip('"')
            exe_file = os.path.join(path, program)
            if is_exe(exe_file):
                return exe_file
    return None

def log(msg):
    print >> sys.stderr, msg

def log_nonewline(msg):
    print >> sys.stderr, ("\r%s" % msg),
    sys.stderr.flush()

def error(msg):
    log("Error: %s" % msg)
    exit(1)

def give_exec_permission(filename):
    "chmod +x filename"
    st = os.stat(filename)
    os.chmod(filename, st.st_mode | stat.S_IEXEC)

def show_download_progress(*data):
    file_size = int(data[2]/1000)
    total_packets = data[2]/data[1]
    downloaded_packets = data[0]
    log_nonewline("Download: size\t= %i kb, packet: %i/%i" % (file_size, downloaded_packets, total_packets+1))

def download_ninja_and_save_at(ninja_path):
    if platform.system() == "Linux" and "x86_64" in platform.platform():
        url = "http://www.cs.cmu.edu/~soonhok/ninja/ninja-1.5.1-linux-x86_64"
    elif platform.system() == "Windows":
        url = "http://www.cs.cmu.edu/~soonhok/ninja/ninja-win"
    elif platform.system() == "Darwin" and "x86_64" in platform.platform():
        url = "http://www.cs.cmu.edu/~soonhok/ninja/ninja-1.5.1-osx"
    else:
        error("we do not have ninja executable for this platform: %s" % platform.platform())
    log("Downloading ninja: %s ===> %s\n" % (url, ninja_path))
    urllib.urlretrieve(url, ninja_path, show_download_progress)
    log("\n")
    if not os.path.isfile(ninja_path):
        error("failed to download ninja executable from %s" % url)
    give_exec_permission(ninja_path)
    return ninja_path

def check_required_packages():
    global g_lean_path, g_ninja_path
    lean_exec_name  = "lean.exe"  if platform.system() == "Windows" else "lean"
    ninja_exec_name = "ninja.exe" if platform.system() == "Windows" else "ninja"

    if g_lean_path == "USE DEFAULT":
        g_lean_path = which(lean_exec_name) or os.path.join(g_lean_bin_dir, lean_exec_name)
    if g_ninja_path == "USE DEFAULT":
        g_ninja_path = which(ninja_exec_name) or os.path.join(g_lean_bin_dir, ninja_exec_name)

    if not os.path.isfile(g_lean_path):
        error("cannot find lean executable at " + g_lean_path)

    if not os.path.isfile(g_ninja_path):
        g_ninja_path = download_ninja_and_save_at(g_ninja_path)

def make_deps(lean_file, dlean_file, olean_file):
    with open(dlean_file, "w") as f:
        deps = []
        output = subprocess.check_output([g_lean_path, "--deps", lean_file])
        print >> f, olean_file + ": \\"
        for olean_file in output.strip().split("\n"):
            deps.append(olean_file)
        deps_str = " " + (" \\\n ".join(deps))
        print >> f, deps_str

def get_lean_names(lean_file):
    basename, ext = os.path.splitext(lean_file)
    item = {}
    item['base']  = basename;            item['lean']  = basename + ".lean";
    item['d']     = basename + ".d";     item['olean'] = basename + ".olean";
    item['clean'] = basename + ".clean"; item['ilean'] = basename + ".ilean"
    return item

def make_deps_all_files(directory, targets):
    lean_files = find_lean_files(directory, targets)
    threads = []
    i, num_of_files = 1, len(lean_files)
    for item in lean_files:
        lean_file  = item['lean']
        dlean_file = item['d']
        olean_file = item['olean']
        if not os.path.isfile(dlean_file) or os.path.getmtime(dlean_file) < os.path.getmtime(lean_file):
            thread = threading.Thread(target=make_deps, args = [lean_file, dlean_file, olean_file])
            sys.stderr.write("[%i/%i] generating dep... % -80s\r" % (i, num_of_files, dlean_file))
            sys.stderr.flush()
            thread.start()
            threads.append(thread)
        i += 1
    for thread in threads:
        thread.join()
    if threads != []:
        sys.stderr.write("\n")

def rule_clean():
    return """rule CLEAN
  command = "%s" -t clean
  description = Cleaning all built files...""" % g_ninja_path

def rule_lean():
    return """rule LEAN
  depfile = ${LEAN_BASE}.d
  command = "%s" %s "$in" -o "${LEAN_BASE}.olean" -c "${LEAN_BASE}.clean" -i "${LEAN_BASE}.ilean" """ \
      % (g_lean_path, " ".join(g_lean_options))

def build_all(lean_files):
    str = "build all: phony"
    for item in lean_files:
        str = str + " " + item['olean']
    return str

def build_clean():
    return """build clean: CLEAN"""

def build_olean(lean, olean, clean, dlean, ilean, base):
    str = """build %s %s %s: LEAN %s | %s\n""" % (olean, ilean, clean, lean, dlean)
    str += "  LEAN_BASE=%s" % base
    return str

def ninja_default():
    return """default all"""

def make_build_ninja(directory, targets):
    with open(os.path.join(directory, "build.ninja"), "w") as f:
        lean_files = find_lean_files(directory, targets)
        print >> f, rule_clean()
        print >> f, rule_lean()
        print >> f, build_all(lean_files)
        print >> f, build_clean()
        for item in lean_files:
            print >> f, build_olean(item['lean'], item['olean'], item['clean'], item['d'], item['ilean'], item['base'])
        print >> f, ninja_default()

def do_deps(lean_executable, lean_files):
    for lean in lean_files:
        item = get_lean_names(lean)
        make_deps(lean_executable, item['lean'], item['d'], item['olean'])

def find_project_upward(path):
    project_file = os.path.join(path, ".project")
    if os.path.isfile(project_file):
        return path
    up = os.path.dirname(path)
    if up != path:
        return find_project_upward(up)
    return None

def handle_failure_for_flycheck(out, target):
    failed = set()
    for line in out.split("\n"):
        if line.startswith("FAILED:"):
            for lean_file in g_lean_files:
                lean = lean_file['lean']
                if lean in line:
                    print "WOW: This one failed", lean
                    failed.add(lean)
    for failed_file in failed:
        if target != failed_file:
            print "FLYCHECK_BEGIN ERROR"
            print "%s:1:0: error: failed to compile %s" % (target, failed_file)
            print "FLYCHECK_END"

def call_ninja(directory, args):
    targets = []
    for item in args.targets:
        if item.endswith(".lean"):
            targets.append(item[:-4] + "olean")
        else:
            targets.append(item)
    proc_out = proc_err = None
    if args.flycheck:
        proc_out = subprocess.PIPE
        proc_err = subprocess.PIPE

    proc = subprocess.Popen([g_ninja_path] + targets + ["-C", directory, "-k 29"], stdout=proc_out, stderr=proc_err)
    # proc = subprocess.Popen([g_ninja_path] + targets + ["-C", directory])
    proc.wait()

    if args.flycheck:
        (out, err) = proc.communicate()
        print out
        if len(args.targets) == 1 and args.targets[0].endswith(".lean"):
            handle_failure_for_flycheck(out, args.targets[0])

def find_files(directory, pattern):
    if "/" in pattern:
        return glob.glob(os.path.join(directory, pattern))
    matches = []
    for root, dirnames, filenames in os.walk(directory):
        for filename in fnmatch.filter(filenames, pattern):
            matches.append(os.path.join(root, filename))
    return matches

def find_lean_files(project_dir, targets):
    if g_lean_files != []:
        return g_lean_files
    files = set()
    include_patterns, exclude_patterns = [], []
    with open(os.path.join(project_dir, ".project"), 'r') as f:
        for line in f:
            c = line[0]
            if c == '+':
                include_patterns.append(line[1:].strip())
            elif c == '-':
                exclude_patterns.append(line[1:].strip())
            elif c == '#':
                pass # Comment
            elif c == 'T':
                pass # TAG
            elif c == 'O':
                pass # Lean Option
    for pattern in include_patterns:
        files |= set(find_files(project_dir, pattern))
    for pattern in exclude_patterns:
        files -= set(find_files(project_dir, pattern))
    for file in targets:
        file = os.path.abspath(file)
        if file.endswith(".lean"):
            files.add(file)
        elif file.endswith(".olean"):
            file.add(file[:-5] + "lean")
    for f in files:
        g_lean_files.append(get_lean_names(f))
    return g_lean_files

def expand_target_to_fullname(target):
    ret = ""
    if target in ["all", "clean"]:
        ret = target
    elif os.path.isfile(target):
        ret = os.path.abspath(target)
    else:
        ret = target
    return ret

def parse_arg(argv):
    parser = argparse.ArgumentParser(description='linja: ninja build wrapper for Lean theorem prover.')
    parser.add_argument('--flycheck',   '-F', action='store_true', default=False, help="Use --flycheck option for Lean.")
    parser.add_argument('targets', nargs='*')
    args = parser.parse_args(argv)
    args.targets = map(expand_target_to_fullname, args.targets)
    return args

def get_lean_options(args):
    options = []
    if args.flycheck:
        options.append("--flycheck")
    return options

def main(argv=None):
    global g_lean_options
    if argv is None:
        argv = sys.argv[1:]
    check_required_packages()
    project_dir = find_project_upward(g_working_dir)
    if not project_dir:
        error("cannot find project directory. Make sure that you have .project file at the project root.")
    args = parse_arg(argv)
    os.chdir(project_dir)
    g_lean_options += get_lean_options(args)
    if not "clean" in args.targets:
        make_deps_all_files(project_dir, args.targets)
    make_build_ninja(project_dir, args.targets)
    call_ninja(project_dir, args)

if __name__ == "__main__":
    sys.exit(main())


"""If the pattern does not contain a slash /, git treats it as a shell
glob pattern and checks for a match against the pathname relative to
the location of the .gitignore file (relative to the toplevel of the
work tree if not from a .gitignore file)."""

"""Otherwise, git treats the pattern as a shell glob suitable for
consumption by fnmatch(3) with the FNM_PATHNAME flag: wildcards in the
pattern will not match a / in the pathname. For example,
Documentation/*.html matches Documentation/git.html but not
Documentation/ppc/ppc.html or tools/perf/Documentation/perf.html."""


""" Lean option
  --luahook=num -k  how often the Lua interpreter checks the interrupted flag,
                    it is useful for interrupting non-terminating user scripts,
                    0 means 'do not check'.
  --trust=num -t    trust level (default: 0)
  --threads=num -j  number of threads used to process lean files
  --flycheck        print structured error message for flycheck
"""

""" Ninja option
       -C DIR change to DIR before doing anything else

       -j N   run N jobs in parallel [default=8, derived from CPUs available]

       -l N   do not start new jobs if the load average is greater than N

       -k N   keep going until N jobs fail [default=1]

       -n     dry run (don't run commands but act like they succeeded)

       -v     show all command lines while building
"""
feat(bin/linja): add linja close #103, #108 2014-08-29 08:34:44 +00:00			`#!/usr/bin/env python2`
			`# -- coding: utf-8 --`
			`import fnmatch`
			`import os`
			`import platform`
			`import stat`
			`import subprocess`
			`import sys`
			`import threading`
			`import urllib`
			`import glob`
			`import argparse`

			`g_lean_path = "USE DEFAULT"`
			`g_ninja_path = "USE DEFAULT"`
			`g_working_dir = os.getcwd()`
			`g_lean_files = []`
			`g_linja_path = os.path.realpath(__file__)`
			`g_lean_bin_dir = os.path.dirname(g_linja_path)`
			`g_lean_options = []`

			`def which(program):`
			`""" Lookup program in a path """`
			`import os`
			`def is_exe(fpath):`
			`return os.path.isfile(fpath) and os.access(fpath, os.X_OK)`
			`fpath, fname = os.path.split(program)`
			`if fpath:`
			`if is_exe(program):`
			`return program`
			`else:`
			`for path in os.environ["PATH"].split(os.pathsep):`
			`path = path.strip('"')`
			`exe_file = os.path.join(path, program)`
			`if is_exe(exe_file):`
			`return exe_file`
			`return None`

			`def log(msg):`
			`print >> sys.stderr, msg`

			`def log_nonewline(msg):`
			`print >> sys.stderr, ("\r%s" % msg),`
			`sys.stderr.flush()`

			`def error(msg):`
			`log("Error: %s" % msg)`
			`exit(1)`

			`def give_exec_permission(filename):`
			`"chmod +x filename"`
			`st = os.stat(filename)`
			`os.chmod(filename, st.st_mode \| stat.S_IEXEC)`

			`def show_download_progress(*data):`
			`file_size = int(data[2]/1000)`
			`total_packets = data[2]/data[1]`
			`downloaded_packets = data[0]`
			`log_nonewline("Download: size\t= %i kb, packet: %i/%i" % (file_size, downloaded_packets, total_packets+1))`

			`def download_ninja_and_save_at(ninja_path):`
			`if platform.system() == "Linux" and "x86_64" in platform.platform():`
			`url = "http://www.cs.cmu.edu/~soonhok/ninja/ninja-1.5.1-linux-x86_64"`
			`elif platform.system() == "Windows":`
			`url = "http://www.cs.cmu.edu/~soonhok/ninja/ninja-win"`
			`elif platform.system() == "Darwin" and "x86_64" in platform.platform():`
			`url = "http://www.cs.cmu.edu/~soonhok/ninja/ninja-1.5.1-osx"`
			`else:`
			`error("we do not have ninja executable for this platform: %s" % platform.platform())`
			`log("Downloading ninja: %s ===> %s\n" % (url, ninja_path))`
			`urllib.urlretrieve(url, ninja_path, show_download_progress)`
			`log("\n")`
			`if not os.path.isfile(ninja_path):`
			`error("failed to download ninja executable from %s" % url)`
			`give_exec_permission(ninja_path)`
			`return ninja_path`

			`def check_required_packages():`
			`global g_lean_path, g_ninja_path`
			`lean_exec_name = "lean.exe" if platform.system() == "Windows" else "lean"`
			`ninja_exec_name = "ninja.exe" if platform.system() == "Windows" else "ninja"`

			`if g_lean_path == "USE DEFAULT":`
			`g_lean_path = which(lean_exec_name) or os.path.join(g_lean_bin_dir, lean_exec_name)`
			`if g_ninja_path == "USE DEFAULT":`
			`g_ninja_path = which(ninja_exec_name) or os.path.join(g_lean_bin_dir, ninja_exec_name)`

			`if not os.path.isfile(g_lean_path):`
			`error("cannot find lean executable at " + g_lean_path)`

			`if not os.path.isfile(g_ninja_path):`
			`g_ninja_path = download_ninja_and_save_at(g_ninja_path)`

			`def make_deps(lean_file, dlean_file, olean_file):`
			`with open(dlean_file, "w") as f:`
			`deps = []`
			`output = subprocess.check_output([g_lean_path, "--deps", lean_file])`
			`print >> f, olean_file + ": \\"`
			`for olean_file in output.strip().split("\n"):`
			`deps.append(olean_file)`
			`deps_str = " " + (" \\\n ".join(deps))`
			`print >> f, deps_str`

			`def get_lean_names(lean_file):`
			`basename, ext = os.path.splitext(lean_file)`
			`item = {}`
			`item['base'] = basename; item['lean'] = basename + ".lean";`
			`item['d'] = basename + ".d"; item['olean'] = basename + ".olean";`
			`item['clean'] = basename + ".clean"; item['ilean'] = basename + ".ilean"`
			`return item`

			`def make_deps_all_files(directory, targets):`
			`lean_files = find_lean_files(directory, targets)`
			`threads = []`
			`i, num_of_files = 1, len(lean_files)`
			`for item in lean_files:`
			`lean_file = item['lean']`
			`dlean_file = item['d']`
			`olean_file = item['olean']`
			`if not os.path.isfile(dlean_file) or os.path.getmtime(dlean_file) < os.path.getmtime(lean_file):`
			`thread = threading.Thread(target=make_deps, args = [lean_file, dlean_file, olean_file])`
			`sys.stderr.write("[%i/%i] generating dep... % -80s\r" % (i, num_of_files, dlean_file))`
			`sys.stderr.flush()`
			`thread.start()`
			`threads.append(thread)`
			`i += 1`
			`for thread in threads:`
			`thread.join()`
			`if threads != []:`
			`sys.stderr.write("\n")`

			`def rule_clean():`
			`return """rule CLEAN`
			`command = "%s" -t clean`
			`description = Cleaning all built files...""" % g_ninja_path`

			`def rule_lean():`
			`return """rule LEAN`
			`depfile = ${LEAN_BASE}.d`
			`command = "%s" %s "$in" -o "${LEAN_BASE}.olean" -c "${LEAN_BASE}.clean" -i "${LEAN_BASE}.ilean" """ \`
			`% (g_lean_path, " ".join(g_lean_options))`

			`def build_all(lean_files):`
			`str = "build all: phony"`
			`for item in lean_files:`
			`str = str + " " + item['olean']`
			`return str`

			`def build_clean():`
			`return """build clean: CLEAN"""`

			`def build_olean(lean, olean, clean, dlean, ilean, base):`
			`str = """build %s %s %s: LEAN %s \| %s\n""" % (olean, ilean, clean, lean, dlean)`
			`str += " LEAN_BASE=%s" % base`
			`return str`

			`def ninja_default():`
			`return """default all"""`

			`def make_build_ninja(directory, targets):`
			`with open(os.path.join(directory, "build.ninja"), "w") as f:`
			`lean_files = find_lean_files(directory, targets)`
			`print >> f, rule_clean()`
			`print >> f, rule_lean()`
			`print >> f, build_all(lean_files)`
			`print >> f, build_clean()`
			`for item in lean_files:`
			`print >> f, build_olean(item['lean'], item['olean'], item['clean'], item['d'], item['ilean'], item['base'])`
			`print >> f, ninja_default()`

			`def do_deps(lean_executable, lean_files):`
			`for lean in lean_files:`
			`item = get_lean_names(lean)`
			`make_deps(lean_executable, item['lean'], item['d'], item['olean'])`

			`def find_project_upward(path):`
			`project_file = os.path.join(path, ".project")`
			`if os.path.isfile(project_file):`
			`return path`
			`up = os.path.dirname(path)`
			`if up != path:`
			`return find_project_upward(up)`
			`return None`

			`def handle_failure_for_flycheck(out, target):`
			`failed = set()`
			`for line in out.split("\n"):`
			`if line.startswith("FAILED:"):`
			`for lean_file in g_lean_files:`
			`lean = lean_file['lean']`
			`if lean in line:`
			`print "WOW: This one failed", lean`
			`failed.add(lean)`
			`for failed_file in failed:`
			`if target != failed_file:`
			`print "FLYCHECK_BEGIN ERROR"`
			`print "%s:1:0: error: failed to compile %s" % (target, failed_file)`
			`print "FLYCHECK_END"`

			`def call_ninja(directory, args):`
			`targets = []`
			`for item in args.targets:`
			`if item.endswith(".lean"):`
			`targets.append(item[:-4] + "olean")`
			`else:`
			`targets.append(item)`
			`proc_out = proc_err = None`
			`if args.flycheck:`
			`proc_out = subprocess.PIPE`
			`proc_err = subprocess.PIPE`

			`proc = subprocess.Popen([g_ninja_path] + targets + ["-C", directory, "-k 29"], stdout=proc_out, stderr=proc_err)`
			`# proc = subprocess.Popen([g_ninja_path] + targets + ["-C", directory])`
			`proc.wait()`

			`if args.flycheck:`
			`(out, err) = proc.communicate()`
			`print out`
			`if len(args.targets) == 1 and args.targets[0].endswith(".lean"):`
			`handle_failure_for_flycheck(out, args.targets[0])`

			`def find_files(directory, pattern):`
			`if "/" in pattern:`
			`return glob.glob(os.path.join(directory, pattern))`
			`matches = []`
			`for root, dirnames, filenames in os.walk(directory):`
			`for filename in fnmatch.filter(filenames, pattern):`
			`matches.append(os.path.join(root, filename))`
			`return matches`

			`def find_lean_files(project_dir, targets):`
			`if g_lean_files != []:`
			`return g_lean_files`
			`files = set()`
			`include_patterns, exclude_patterns = [], []`
			`with open(os.path.join(project_dir, ".project"), 'r') as f:`
			`for line in f:`
			`c = line[0]`
			`if c == '+':`
			`include_patterns.append(line[1:].strip())`
			`elif c == '-':`
			`exclude_patterns.append(line[1:].strip())`
			`elif c == '#':`
			`pass # Comment`
			`elif c == 'T':`
			`pass # TAG`
			`elif c == 'O':`
			`pass # Lean Option`
			`for pattern in include_patterns:`
			`files \|= set(find_files(project_dir, pattern))`
			`for pattern in exclude_patterns:`
			`files -= set(find_files(project_dir, pattern))`
			`for file in targets:`
			`file = os.path.abspath(file)`
			`if file.endswith(".lean"):`
			`files.add(file)`
			`elif file.endswith(".olean"):`
			`file.add(file[:-5] + "lean")`
			`for f in files:`
			`g_lean_files.append(get_lean_names(f))`
			`return g_lean_files`

			`def expand_target_to_fullname(target):`
			`ret = ""`
			`if target in ["all", "clean"]:`
			`ret = target`
			`elif os.path.isfile(target):`
			`ret = os.path.abspath(target)`
			`else:`
			`ret = target`
			`return ret`

			`def parse_arg(argv):`
			`parser = argparse.ArgumentParser(description='linja: ninja build wrapper for Lean theorem prover.')`
			`parser.add_argument('--flycheck', '-F', action='store_true', default=False, help="Use --flycheck option for Lean.")`
			`parser.add_argument('targets', nargs='*')`
			`args = parser.parse_args(argv)`
			`args.targets = map(expand_target_to_fullname, args.targets)`
			`return args`

			`def get_lean_options(args):`
			`options = []`
			`if args.flycheck:`
			`options.append("--flycheck")`
			`return options`

			`def main(argv=None):`
			`global g_lean_options`
			`if argv is None:`
			`argv = sys.argv[1:]`
			`check_required_packages()`
			`project_dir = find_project_upward(g_working_dir)`
			`if not project_dir:`
			`error("cannot find project directory. Make sure that you have .project file at the project root.")`
			`args = parse_arg(argv)`
			`os.chdir(project_dir)`
			`g_lean_options += get_lean_options(args)`
			`if not "clean" in args.targets:`
			`make_deps_all_files(project_dir, args.targets)`
			`make_build_ninja(project_dir, args.targets)`
			`call_ninja(project_dir, args)`

			`if __name__ == "__main__":`
			`sys.exit(main())`


			`"""If the pattern does not contain a slash /, git treats it as a shell`
			`glob pattern and checks for a match against the pathname relative to`
			`the location of the .gitignore file (relative to the toplevel of the`
			`work tree if not from a .gitignore file)."""`

			`"""Otherwise, git treats the pattern as a shell glob suitable for`
			`consumption by fnmatch(3) with the FNM_PATHNAME flag: wildcards in the`
			`pattern will not match a / in the pathname. For example,`
			`Documentation/*.html matches Documentation/git.html but not`
			`Documentation/ppc/ppc.html or tools/perf/Documentation/perf.html."""`


			`""" Lean option`
			`--luahook=num -k how often the Lua interpreter checks the interrupted flag,`
			`it is useful for interrupting non-terminating user scripts,`
			`0 means 'do not check'.`
			`--trust=num -t trust level (default: 0)`
			`--threads=num -j number of threads used to process lean files`
			`--flycheck print structured error message for flycheck`
			`"""`

			`""" Ninja option`
			`-C DIR change to DIR before doing anything else`

			`-j N run N jobs in parallel [default=8, derived from CPUs available]`

			`-l N do not start new jobs if the load average is greater than N`

			`-k N keep going until N jobs fail [default=1]`

			`-n dry run (don't run commands but act like they succeeded)`

			`-v show all command lines while building`
			`"""`