#! /usr/bin/env python import os, sys, pickle def longest_common_prefix(elements): if not elements: return "" prefix = elements[0] for e in elements: prefix = longest_common_prefix_2(prefix, e) return prefix def longest_common_prefix_2(a, b): maxlen = min(len(a), len(b)) for i in range(maxlen, 0, -1): if a[:i] == b[:i]: return a[:i] return "" ## def write_el(r2): ## filenames = sorted(r2.keys()) ## out = open(".figleaf.el", "w") ## out.write("(setq figleaf-results '(\n") ## for f in filenames: ## linenumbers = r2[f] ## out.write(' ("%s" (%s))\n' % (f, " ".join([str(ln) ## for ln in linenumbers]))) ## out.write(" ))\n") ## out.close() def write_el(r2, source): filenames = sorted(r2.keys()) out = open(".figleaf.el", "w") out.write(""" ;; This is an elisp-readable form of the figleaf coverage data. It defines a ;; single top-level hash table in which the load-path-relative filename (like ;; allmydata/download.py) is the key, and the value is a three-element list. ;; The first element of this list is a list of line numbers that represent ;; actual code. The second is a list of line numbers for lines which got used ;; during the unit test. The third is a list of line numbers for code lines ;; that were not covered (since 'code' and 'covered' start as sets, this last ;; list is equal to 'code - covered'). """) out.write("(let ((results (make-hash-table :test 'equal)))\n") for f in filenames: covered_linenumbers = r2[f] code_linenumbers = source[f] uncovered_code = code_linenumbers - covered_linenumbers out.write(" (puthash \"%s\" '((%s) (%s) (%s)) results)\n" % (f, " ".join([str(ln) for ln in sorted(code_linenumbers)]), " ".join([str(ln) for ln in sorted(covered_linenumbers)]), " ".join([str(ln) for ln in sorted(uncovered_code)]), )) out.write(" results)\n") out.close() import figleaf def examine_source(filename): f = open(filename, "r") lines = figleaf.get_lines(f) f.close() return lines def main(): results = pickle.load(open(sys.argv[1], "rb")) import_prefix = os.path.abspath(sys.argv[2]) if not import_prefix.endswith("/"): import_prefix = import_prefix + "/" plen = len(import_prefix) r2 = {} source = {} filenames = sorted(results.keys()) here = os.getcwd() for f in filenames: if f.startswith(import_prefix): short = f[plen:] r2[short] = results[f] source[short] = examine_source(f) write_el(r2, source) if __name__ == '__main__': main()