/usr/share/gps/library/filedeps.py is in gnat-gps-common 5.3dfsg-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 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 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 | """This plug-in adds a menu for computing the dependencies between two files
When you modify some source files, it often happens that the compiler will
decide to recompile other files that depended on it. Finding out why there is
such a dependency is not always obvious, and this plug-in will help you in
that respect.
Once it has been activated, select the new menu
/Navigate/Show File Dependency Path...
and in the dialog that appears enter the two source files you are interested
in. This will then list in the console why the first file depends on the
second (for instance "file1" depends on "file2", which depends on "file3")
"""
#############################################################################
## No user customization below this line
#############################################################################
import GPS
import os.path
def internal_dependency_path (from_file, to_file, include_implicit):
# We do the computation starting from to_file, since it is more efficient
# to compute "imported" files than "importing files". Since we want to
# compute the path itself, do not do a recursive search.
deps = dict()
# List of files to analyze. This is a list of tuples, the first element of
# which is the name of the file to analyze, and the second is the name of
# the parent that put it in the list
to_analyze = [(from_file, None)]
while len (to_analyze) != 0:
(file, because_of) = to_analyze.pop()
imports = file.imports (include_implicit=include_implicit,
include_system=False)
# imports does not list the dependency from body to spec, so we add it
# explicitly if from_file is a body.
ext = os.path.splitext (from_file.name())
if ext[1] == ".adb" or (ext[1] == ".ada" and ext[0][-2:] == ".2"):
imports.append (from_file.other_file())
deps[file] = because_of
if file == to_file:
break
for f in imports:
if f and not deps.has_key (f):
to_analyze.append ((f, file))
target = to_file
added=False
result=""
targets = []
while target:
targets.append (target)
result = " -> " + target.name() + "\n" + result
if not deps.has_key (target):
result = "No dependency between these two files"
break
target = deps[target]
return (result, targets)
def dependency_path (from_file, to_file, fill_location=False, title=""):
"""Shows why modifying to_file implies that from_file needs to be
recompiled. This information is computed from the cross-references
database, and requires your application to have been compiled
properly. This function does not attempt to compute the shortest
dependency path, and just returns the first one it finds.
FROM_FILE and TO_FILE must be instances of GPS.File.
If FILL_LOCATION is True, then the locations view will also be filled."""
if not isinstance (from_file, GPS.File):
from_file = GPS.File (from_file)
if not isinstance (to_file, GPS.File):
to_file = GPS.File (to_file)
if from_file == to_file:
return "Same file"
# First, try without implicit dependencies, this gives better results
# in general, and then fallback to implicit deps if needed.
(result, targets) = internal_dependency_path (from_file, to_file,
include_implicit=False)
if result == "No dependency between these two files":
(result, targets) = internal_dependency_path (from_file, to_file,
include_implicit=True)
if fill_location and result != "No dependency between these two files":
target = targets.pop()
# Fill the locations view with the result
while len (targets) != 0:
prev_target = target
target = targets.pop()
# Assume simple naming schemes:
# - parent-child.ads -> parent.child
# - parent.child.1.ada -> parent.child
# ??? Would be good to have a file_to_unit API instead
unit=os.path.splitext (os.path.basename (target.name()))[0]
if len (unit) > 2 and (unit[-2:] == ".1" or unit[-2:] == ".2"):
unit = unit [0:len (unit) - 2]
unit=unit.split ('-')[-1].split ('.')[-1]
# Find the 'with <unit>' clause in prev_target and fill the location view
for e in prev_target.entities(local=False):
if e.category() == "package/namespace" \
and e.name().lower() == unit \
and e.declaration().file() == target:
refs = e.references (in_file=prev_target)
if len (refs) > 1:
r = refs[1]
GPS.Locations.add (category=title,
file=prev_target,
line=r.line(),
column=r.column(),
message="with " + unit,
highlight="",
length=0)
added = True
break
if added:
GPS.MDI.get ("Locations").raise_window()
return result
def print_dependency_path (from_file, to_file):
title = "Dependencies from " + os.path.basename (from_file.name()) + \
" to " + os.path.basename (to_file.name())
result = dependency_path (from_file, to_file, True, title)
GPS.Console().write (title + "\n" + result + "\n")
def interactive_dependency_path (menu):
try:
(file1, file2)=GPS.MDI.input_dialog ("Show file dependency path",
"From File", "To File")
except:
return
print_dependency_path (GPS.File (file1), GPS.File (file2))
GPS.Menu.create ("/Navigate/Show File Dependency Path...",
interactive_dependency_path)
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