blender/extern/libmv/third_party/gflags/gflags_reporting.cc
Sergey Sharybin 42b3463030 Bundle new upstream version of libmv from own branch
This version of libmv includes new gflags and glog libraries which makes
it possible to compile libmv with clang compiler.

Also remove code from CMakeLists which was disabling libmv if using clang.

Tested on linux with gcc-4.6 and clang-3.0, windows cmake+msvc and scons+mingw.
Could be some issues with other platforms/build system which shall be simple to resolve.
2012-03-11 19:52:25 +00:00

448 lines
17 KiB
C++

// Copyright (c) 1999, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// ---
//
// Revamped and reorganized by Craig Silverstein
//
// This file contains code for handling the 'reporting' flags. These
// are flags that, when present, cause the program to report some
// information and then exit. --help and --version are the canonical
// reporting flags, but we also have flags like --helpxml, etc.
//
// There's only one function that's meant to be called externally:
// HandleCommandLineHelpFlags(). (Well, actually, ShowUsageWithFlags(),
// ShowUsageWithFlagsRestrict(), and DescribeOneFlag() can be called
// externally too, but there's little need for it.) These are all
// declared in the main gflags.h header file.
//
// HandleCommandLineHelpFlags() will check what 'reporting' flags have
// been defined, if any -- the "help" part of the function name is a
// bit misleading -- and do the relevant reporting. It should be
// called after all flag-values have been assigned, that is, after
// parsing the command-line.
#include "config.h"
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <assert.h>
#include <string>
#include <vector>
#include "gflags/gflags.h"
#include "gflags/gflags_completions.h"
#include "util.h"
#ifndef PATH_SEPARATOR
#define PATH_SEPARATOR '/'
#endif
// The 'reporting' flags. They all call gflags_exitfunc().
DEFINE_bool(help, false,
"show help on all flags [tip: all flags can have two dashes]");
DEFINE_bool(helpfull, false,
"show help on all flags -- same as -help");
DEFINE_bool(helpshort, false,
"show help on only the main module for this program");
DEFINE_string(helpon, "",
"show help on the modules named by this flag value");
DEFINE_string(helpmatch, "",
"show help on modules whose name contains the specified substr");
DEFINE_bool(helppackage, false,
"show help on all modules in the main package");
DEFINE_bool(helpxml, false,
"produce an xml version of help");
DEFINE_bool(version, false,
"show version and build info and exit");
_START_GOOGLE_NAMESPACE_
using std::string;
using std::vector;
// --------------------------------------------------------------------
// DescribeOneFlag()
// DescribeOneFlagInXML()
// Routines that pretty-print info about a flag. These use
// a CommandLineFlagInfo, which is the way the gflags
// API exposes static info about a flag.
// --------------------------------------------------------------------
static const int kLineLength = 80;
static void AddString(const string& s,
string* final_string, int* chars_in_line) {
const int slen = static_cast<int>(s.length());
if (*chars_in_line + 1 + slen >= kLineLength) { // < 80 chars/line
*final_string += "\n ";
*chars_in_line = 6;
} else {
*final_string += " ";
*chars_in_line += 1;
}
*final_string += s;
*chars_in_line += slen;
}
static string PrintStringFlagsWithQuotes(const CommandLineFlagInfo& flag,
const string& text, bool current) {
const char* c_string = (current ? flag.current_value.c_str() :
flag.default_value.c_str());
if (strcmp(flag.type.c_str(), "string") == 0) { // add quotes for strings
return StringPrintf("%s: \"%s\"", text.c_str(), c_string);
} else {
return StringPrintf("%s: %s", text.c_str(), c_string);
}
}
// Create a descriptive string for a flag.
// Goes to some trouble to make pretty line breaks.
string DescribeOneFlag(const CommandLineFlagInfo& flag) {
string main_part;
SStringPrintf(&main_part, " -%s (%s)",
flag.name.c_str(),
flag.description.c_str());
const char* c_string = main_part.c_str();
int chars_left = static_cast<int>(main_part.length());
string final_string = "";
int chars_in_line = 0; // how many chars in current line so far?
while (1) {
assert(chars_left == strlen(c_string)); // Unless there's a \0 in there?
const char* newline = strchr(c_string, '\n');
if (newline == NULL && chars_in_line+chars_left < kLineLength) {
// The whole remainder of the string fits on this line
final_string += c_string;
chars_in_line += chars_left;
break;
}
if (newline != NULL && newline - c_string < kLineLength - chars_in_line) {
int n = static_cast<int>(newline - c_string);
final_string.append(c_string, n);
chars_left -= n + 1;
c_string += n + 1;
} else {
// Find the last whitespace on this 80-char line
int whitespace = kLineLength-chars_in_line-1; // < 80 chars/line
while ( whitespace > 0 && !isspace(c_string[whitespace]) ) {
--whitespace;
}
if (whitespace <= 0) {
// Couldn't find any whitespace to make a line break. Just dump the
// rest out!
final_string += c_string;
chars_in_line = kLineLength; // next part gets its own line for sure!
break;
}
final_string += string(c_string, whitespace);
chars_in_line += whitespace;
while (isspace(c_string[whitespace])) ++whitespace;
c_string += whitespace;
chars_left -= whitespace;
}
if (*c_string == '\0')
break;
StringAppendF(&final_string, "\n ");
chars_in_line = 6;
}
// Append data type
AddString(string("type: ") + flag.type, &final_string, &chars_in_line);
// The listed default value will be the actual default from the flag
// definition in the originating source file, unless the value has
// subsequently been modified using SetCommandLineOptionWithMode() with mode
// SET_FLAGS_DEFAULT, or by setting FLAGS_foo = bar before ParseCommandLineFlags().
AddString(PrintStringFlagsWithQuotes(flag, "default", false), &final_string,
&chars_in_line);
if (!flag.is_default) {
AddString(PrintStringFlagsWithQuotes(flag, "currently", true),
&final_string, &chars_in_line);
}
StringAppendF(&final_string, "\n");
return final_string;
}
// Simple routine to xml-escape a string: escape & and < only.
static string XMLText(const string& txt) {
string ans = txt;
for (string::size_type pos = 0; (pos = ans.find("&", pos)) != string::npos; )
ans.replace(pos++, 1, "&amp;");
for (string::size_type pos = 0; (pos = ans.find("<", pos)) != string::npos; )
ans.replace(pos++, 1, "&lt;");
return ans;
}
static void AddXMLTag(string* r, const char* tag, const string& txt) {
StringAppendF(r, "<%s>%s</%s>", tag, XMLText(txt).c_str(), tag);
}
static string DescribeOneFlagInXML(const CommandLineFlagInfo& flag) {
// The file and flagname could have been attributes, but default
// and meaning need to avoid attribute normalization. This way it
// can be parsed by simple programs, in addition to xml parsers.
string r("<flag>");
AddXMLTag(&r, "file", flag.filename);
AddXMLTag(&r, "name", flag.name);
AddXMLTag(&r, "meaning", flag.description);
AddXMLTag(&r, "default", flag.default_value);
AddXMLTag(&r, "current", flag.current_value);
AddXMLTag(&r, "type", flag.type);
r += "</flag>";
return r;
}
// --------------------------------------------------------------------
// ShowUsageWithFlags()
// ShowUsageWithFlagsRestrict()
// ShowXMLOfFlags()
// These routines variously expose the registry's list of flag
// values. ShowUsage*() prints the flag-value information
// to stdout in a user-readable format (that's what --help uses).
// The Restrict() version limits what flags are shown.
// ShowXMLOfFlags() prints the flag-value information to stdout
// in a machine-readable format. In all cases, the flags are
// sorted: first by filename they are defined in, then by flagname.
// --------------------------------------------------------------------
static const char* Basename(const char* filename) {
const char* sep = strrchr(filename, PATH_SEPARATOR);
return sep ? sep + 1 : filename;
}
static string Dirname(const string& filename) {
string::size_type sep = filename.rfind(PATH_SEPARATOR);
return filename.substr(0, (sep == string::npos) ? 0 : sep);
}
// Test whether a filename contains at least one of the substrings.
static bool FileMatchesSubstring(const string& filename,
const vector<string>& substrings) {
for (vector<string>::const_iterator target = substrings.begin();
target != substrings.end();
++target) {
if (strstr(filename.c_str(), target->c_str()) != NULL)
return true;
// If the substring starts with a '/', that means that we want
// the string to be at the beginning of a directory component.
// That should match the first directory component as well, so
// we allow '/foo' to match a filename of 'foo'.
if (!target->empty() && (*target)[0] == '/' &&
strncmp(filename.c_str(), target->c_str() + 1,
strlen(target->c_str() + 1)) == 0)
return true;
}
return false;
}
// Show help for every filename which matches any of the target substrings.
// If substrings is empty, shows help for every file. If a flag's help message
// has been stripped (e.g. by adding '#define STRIP_FLAG_HELP 1'
// before including gflags/gflags.h), then this flag will not be displayed
// by '--help' and its variants.
static void ShowUsageWithFlagsMatching(const char *argv0,
const vector<string> &substrings) {
fprintf(stdout, "%s: %s\n", Basename(argv0), ProgramUsage());
vector<CommandLineFlagInfo> flags;
GetAllFlags(&flags); // flags are sorted by filename, then flagname
string last_filename; // so we know when we're at a new file
bool first_directory = true; // controls blank lines between dirs
bool found_match = false; // stays false iff no dir matches restrict
for (vector<CommandLineFlagInfo>::const_iterator flag = flags.begin();
flag != flags.end();
++flag) {
if (substrings.empty() ||
FileMatchesSubstring(flag->filename, substrings)) {
// If the flag has been stripped, pretend that it doesn't exist.
if (flag->description == kStrippedFlagHelp) continue;
found_match = true; // this flag passed the match!
if (flag->filename != last_filename) { // new file
if (Dirname(flag->filename) != Dirname(last_filename)) { // new dir!
if (!first_directory)
fprintf(stdout, "\n\n"); // put blank lines between directories
first_directory = false;
}
fprintf(stdout, "\n Flags from %s:\n", flag->filename.c_str());
last_filename = flag->filename;
}
// Now print this flag
fprintf(stdout, "%s", DescribeOneFlag(*flag).c_str());
}
}
if (!found_match && !substrings.empty()) {
fprintf(stdout, "\n No modules matched: use -help\n");
}
}
void ShowUsageWithFlagsRestrict(const char *argv0, const char *restrict) {
vector<string> substrings;
if (restrict != NULL && *restrict != '\0') {
substrings.push_back(restrict);
}
ShowUsageWithFlagsMatching(argv0, substrings);
}
void ShowUsageWithFlags(const char *argv0) {
ShowUsageWithFlagsRestrict(argv0, "");
}
// Convert the help, program, and usage to xml.
static void ShowXMLOfFlags(const char *prog_name) {
vector<CommandLineFlagInfo> flags;
GetAllFlags(&flags); // flags are sorted: by filename, then flagname
// XML. There is no corresponding schema yet
fprintf(stdout, "<?xml version=\"1.0\"?>\n");
// The document
fprintf(stdout, "<AllFlags>\n");
// the program name and usage
fprintf(stdout, "<program>%s</program>\n",
XMLText(Basename(prog_name)).c_str());
fprintf(stdout, "<usage>%s</usage>\n",
XMLText(ProgramUsage()).c_str());
// All the flags
for (vector<CommandLineFlagInfo>::const_iterator flag = flags.begin();
flag != flags.end();
++flag) {
if (flag->description != kStrippedFlagHelp)
fprintf(stdout, "%s\n", DescribeOneFlagInXML(*flag).c_str());
}
// The end of the document
fprintf(stdout, "</AllFlags>\n");
}
// --------------------------------------------------------------------
// ShowVersion()
// Called upon --version. Prints build-related info.
// --------------------------------------------------------------------
static void ShowVersion() {
const char* version_string = VersionString();
if (version_string && *version_string) {
fprintf(stdout, "%s version %s\n",
ProgramInvocationShortName(), version_string);
} else {
fprintf(stdout, "%s\n", ProgramInvocationShortName());
}
# if !defined(NDEBUG)
fprintf(stdout, "Debug build (NDEBUG not #defined)\n");
# endif
}
static void AppendPrognameStrings(vector<string>* substrings,
const char* progname) {
string r("/");
r += progname;
substrings->push_back(r + ".");
substrings->push_back(r + "-main.");
substrings->push_back(r + "_main.");
}
// --------------------------------------------------------------------
// HandleCommandLineHelpFlags()
// Checks all the 'reporting' commandline flags to see if any
// have been set. If so, handles them appropriately. Note
// that all of them, by definition, cause the program to exit
// if they trigger.
// --------------------------------------------------------------------
void HandleCommandLineHelpFlags() {
const char* progname = ProgramInvocationShortName();
HandleCommandLineCompletions();
vector<string> substrings;
AppendPrognameStrings(&substrings, progname);
if (FLAGS_helpshort) {
// show only flags related to this binary:
// E.g. for fileutil.cc, want flags containing ... "/fileutil." cc
ShowUsageWithFlagsMatching(progname, substrings);
gflags_exitfunc(1);
} else if (FLAGS_help || FLAGS_helpfull) {
// show all options
ShowUsageWithFlagsRestrict(progname, ""); // empty restrict
gflags_exitfunc(1);
} else if (!FLAGS_helpon.empty()) {
string restrict = "/" + FLAGS_helpon + ".";
ShowUsageWithFlagsRestrict(progname, restrict.c_str());
gflags_exitfunc(1);
} else if (!FLAGS_helpmatch.empty()) {
ShowUsageWithFlagsRestrict(progname, FLAGS_helpmatch.c_str());
gflags_exitfunc(1);
} else if (FLAGS_helppackage) {
// Shows help for all files in the same directory as main(). We
// don't want to resort to looking at dirname(progname), because
// the user can pick progname, and it may not relate to the file
// where main() resides. So instead, we search the flags for a
// filename like "/progname.cc", and take the dirname of that.
vector<CommandLineFlagInfo> flags;
GetAllFlags(&flags);
string last_package;
for (vector<CommandLineFlagInfo>::const_iterator flag = flags.begin();
flag != flags.end();
++flag) {
if (!FileMatchesSubstring(flag->filename, substrings))
continue;
const string package = Dirname(flag->filename) + "/";
if (package != last_package) {
ShowUsageWithFlagsRestrict(progname, package.c_str());
VLOG(7) << "Found package: " << package;
if (!last_package.empty()) { // means this isn't our first pkg
LOG(WARNING) << "Multiple packages contain a file=" << progname;
}
last_package = package;
}
}
if (last_package.empty()) { // never found a package to print
LOG(WARNING) << "Unable to find a package for file=" << progname;
}
gflags_exitfunc(1);
} else if (FLAGS_helpxml) {
ShowXMLOfFlags(progname);
gflags_exitfunc(1);
} else if (FLAGS_version) {
ShowVersion();
// Unlike help, we may be asking for version in a script, so return 0
gflags_exitfunc(0);
}
}
_END_GOOGLE_NAMESPACE_