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llvm-project/lldb/source/Core/FormatManager.cpp

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Committing type format code for Enrico Granata. This commit adds a new top level command named "type". Currently this command implements three commands: type format add <format> <typename1> [<typename2> ...] type format delete <typename1> [<typename2> ...] type format list [<typename1> [<typename2>] ...] This allows you to specify the default format that will be used to display types when you use "frame variable" or "expression", or the SBValue classes. Examples: // Format uint*_t as hex type format add x uint16_t uint32_t uint64_t // Format intptr_t as a pointer type format add p intptr_t The format characters are the same as "printf" for the most part with many additions. These format character specifiers are also used in many other commands ("frame variable" for one). The current list of format characters include: a - char buffer b - binary B - boolean c - char C - printable char d - signed decimal e - float f - float g - float i - signed decimal I - complex integer o - octal O - OSType p - pointer s - c-string u - unsigned decimal x - hex X - complex float y - bytes Y - bytes with ASCII llvm-svn: 133728
2011-06-24 01:59:56 +08:00
//===-- FormatManager.cpp -------------------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "lldb/Core/FormatManager.h"
// C Includes
// C++ Includes
// Other libraries and framework includes
// Project includes
Python summary strings: - you can use a Python script to write a summary string for data-types, in one of three ways: -P option and typing the script a line at a time -s option and passing a one-line Python script -F option and passing the name of a Python function these options all work for the "type summary add" command your Python code (if provided through -P or -s) is wrapped in a function that accepts two parameters: valobj (a ValueObject) and dict (an LLDB internal dictionary object). if you use -F and give a function name, you're expected to define the function on your own and with the right prototype. your function, however defined, must return a Python string - test case for the Python summary feature - a few quirks: Python summaries cannot have names, and cannot use regex as type names both issues will be fixed ASAP major redesign of type summary code: - type summary working with strings and type summary working with Python code are two classes, with a common base class SummaryFormat - SummaryFormat classes now are able to actively format objects rather than just aggregating data - cleaner code to print descriptions for summaries the public API now exports a method to easily navigate a ValueObject hierarchy New InputReaderEZ and PriorityPointerPair classes Several minor fixes and improvements llvm-svn: 135238
2011-07-15 10:26:42 +08:00
#include "lldb/Core/Debugger.h"
Committing type format code for Enrico Granata. This commit adds a new top level command named "type". Currently this command implements three commands: type format add <format> <typename1> [<typename2> ...] type format delete <typename1> [<typename2> ...] type format list [<typename1> [<typename2>] ...] This allows you to specify the default format that will be used to display types when you use "frame variable" or "expression", or the SBValue classes. Examples: // Format uint*_t as hex type format add x uint16_t uint32_t uint64_t // Format intptr_t as a pointer type format add p intptr_t The format characters are the same as "printf" for the most part with many additions. These format character specifiers are also used in many other commands ("frame variable" for one). The current list of format characters include: a - char buffer b - binary B - boolean c - char C - printable char d - signed decimal e - float f - float g - float i - signed decimal I - complex integer o - octal O - OSType p - pointer s - c-string u - unsigned decimal x - hex X - complex float y - bytes Y - bytes with ASCII llvm-svn: 133728
2011-06-24 01:59:56 +08:00
using namespace lldb;
using namespace lldb_private;
Centralized all of the format to c-string and to format character code inside the FormatManager class. Modified the format arguments in any commands to be able to use a single character format, or a full format name, or a partial format name if no full format names match. Modified any code that was displaying formats to use the new FormatManager calls so that our help text and errors never get out of date. Modified the display of the "type format list" command to be a bit more human readable by showing the format as a format string rather than the single character format char. llvm-svn: 133765
2011-06-24 05:22:24 +08:00
struct FormatInfo
{
Format format;
const char format_char; // One or more format characters that can be used for this format.
const char *format_name; // Long format name that can be used to specify the current format
};
static FormatInfo
g_format_infos[] =
{
{ eFormatDefault , '\0' , "default" },
{ eFormatBoolean , 'B' , "boolean" },
{ eFormatBinary , 'b' , "binary" },
{ eFormatBytes , 'y' , "bytes" },
{ eFormatBytesWithASCII , 'Y' , "bytes with ASCII" },
{ eFormatChar , 'c' , "character" },
{ eFormatCharPrintable , 'C' , "printable character" },
{ eFormatComplexFloat , 'F' , "complex float" },
{ eFormatCString , 's' , "c-string" },
{ eFormatDecimal , 'i' , "signed decimal" },
{ eFormatEnum , 'E' , "enumeration" },
{ eFormatHex , 'x' , "hex" },
{ eFormatFloat , 'f' , "float" },
{ eFormatOctal , 'o' , "octal" },
{ eFormatOSType , 'O' , "OSType" },
{ eFormatUnicode16 , 'U' , "unicode16" },
{ eFormatUnicode32 , '\0' , "unicode32" },
{ eFormatUnsigned , 'u' , "unsigned decimal" },
{ eFormatPointer , 'p' , "pointer" },
{ eFormatVectorOfChar , '\0' , "char[]" },
{ eFormatVectorOfSInt8 , '\0' , "int8_t[]" },
{ eFormatVectorOfUInt8 , '\0' , "uint8_t[]" },
{ eFormatVectorOfSInt16 , '\0' , "int16_t[]" },
{ eFormatVectorOfUInt16 , '\0' , "uint16_t[]" },
Fixed some format names llvm-svn: 134492
2011-07-06 23:56:06 +08:00
{ eFormatVectorOfSInt32 , '\0' , "int32_t[]" },
{ eFormatVectorOfUInt32 , '\0' , "uint32_t[]" },
{ eFormatVectorOfSInt64 , '\0' , "int64_t[]" },
{ eFormatVectorOfUInt64 , '\0' , "uint64_t[]" },
Centralized all of the format to c-string and to format character code inside the FormatManager class. Modified the format arguments in any commands to be able to use a single character format, or a full format name, or a partial format name if no full format names match. Modified any code that was displaying formats to use the new FormatManager calls so that our help text and errors never get out of date. Modified the display of the "type format list" command to be a bit more human readable by showing the format as a format string rather than the single character format char. llvm-svn: 133765
2011-06-24 05:22:24 +08:00
{ eFormatVectorOfFloat32, '\0' , "float32[]" },
{ eFormatVectorOfFloat64, '\0' , "float64[]" },
{ eFormatVectorOfUInt128, '\0' , "uint128_t[]" },
{ eFormatComplexInteger , 'I' , "complex integer" },
{ eFormatCharArray , 'a' , "character array" }
};
static uint32_t
g_num_format_infos = sizeof(g_format_infos)/sizeof(FormatInfo);
static bool
GetFormatFromFormatChar (char format_char, Format &format)
{
for (uint32_t i=0; i<g_num_format_infos; ++i)
{
if (g_format_infos[i].format_char == format_char)
{
format = g_format_infos[i].format;
return true;
}
}
format = eFormatInvalid;
return false;
}
static bool
GetFormatFromFormatName (const char *format_name, bool partial_match_ok, Format &format)
{
uint32_t i;
for (i=0; i<g_num_format_infos; ++i)
{
if (strcasecmp (g_format_infos[i].format_name, format_name) == 0)
{
format = g_format_infos[i].format;
return true;
}
}
if (partial_match_ok)
{
for (i=0; i<g_num_format_infos; ++i)
{
if (strcasestr (g_format_infos[i].format_name, format_name) == g_format_infos[i].format_name)
{
format = g_format_infos[i].format;
return true;
}
}
}
format = eFormatInvalid;
return false;
}
bool
FormatManager::GetFormatFromCString (const char *format_cstr,
bool partial_match_ok,
lldb::Format &format)
{
bool success = false;
if (format_cstr && format_cstr[0])
{
if (format_cstr[1] == '\0')
{
success = GetFormatFromFormatChar (format_cstr[0], format);
if (success)
return true;
}
success = GetFormatFromFormatName (format_cstr, partial_match_ok, format);
}
if (!success)
format = eFormatInvalid;
return success;
}
char
FormatManager::GetFormatAsFormatChar (lldb::Format format)
{
for (uint32_t i=0; i<g_num_format_infos; ++i)
{
if (g_format_infos[i].format == format)
return g_format_infos[i].format_char;
}
return '\0';
}
const char *
FormatManager::GetFormatAsCString (Format format)
{
if (format >= eFormatDefault && format < kNumFormats)
return g_format_infos[format].format_name;
return NULL;
}
several improvements to "type summary": - type names can now be regular expressions (exact matching is done first, and is faster) - integral (and floating) types can be printed as bitfields, i.e. ${var[low-high]} will extract bits low thru high of the value and print them - array subscripts are supported, both for arrays and for pointers. the syntax is ${*var[low-high]}, or ${*var[]} to print the whole array (the latter only works for statically sized arrays) - summary is now printed by default when a summary string references a variable. if that variable's type has no summary, value is printed instead. to force value, you can use %V as a format specifier - basic support for ObjectiveC: - ObjectiveC inheritance chains are now walked through - %@ can be specified as a summary format, to print the ObjectiveC runtime description for an object - some bug fixes llvm-svn: 134293
2011-07-02 08:25:22 +08:00
template<>
bool
named summaries: - a new --name option for "type summary add" lets you give a name to a summary - a new --summary option for "frame variable" lets you bind a named summary to one or more variables ${var%s} now works for printing the value of 0-terminated CStrings type format test case now tests for cascading - this is disabled on GCC because GCC may end up stripping typedef chains, basically breaking cascading new design for the FormatNavigator class new template class CleanUp2 meant to support cleanup routines with 1 additional parameter beyond resource handle llvm-svn: 134943
2011-07-12 08:18:11 +08:00
FormatNavigator<lldb::RegularExpressionSP, SummaryFormat>::Get(const char* key, SummaryFormat::SharedPointer& value)
several improvements to "type summary": - type names can now be regular expressions (exact matching is done first, and is faster) - integral (and floating) types can be printed as bitfields, i.e. ${var[low-high]} will extract bits low thru high of the value and print them - array subscripts are supported, both for arrays and for pointers. the syntax is ${*var[low-high]}, or ${*var[]} to print the whole array (the latter only works for statically sized arrays) - summary is now printed by default when a summary string references a variable. if that variable's type has no summary, value is printed instead. to force value, you can use %V as a format specifier - basic support for ObjectiveC: - ObjectiveC inheritance chains are now walked through - %@ can be specified as a summary format, to print the ObjectiveC runtime description for an object - some bug fixes llvm-svn: 134293
2011-07-02 08:25:22 +08:00
{
named summaries: - a new --name option for "type summary add" lets you give a name to a summary - a new --summary option for "frame variable" lets you bind a named summary to one or more variables ${var%s} now works for printing the value of 0-terminated CStrings type format test case now tests for cascading - this is disabled on GCC because GCC may end up stripping typedef chains, basically breaking cascading new design for the FormatNavigator class new template class CleanUp2 meant to support cleanup routines with 1 additional parameter beyond resource handle llvm-svn: 134943
2011-07-12 08:18:11 +08:00
Mutex::Locker(m_format_map.mutex());
MapIterator pos, end = m_format_map.map().end();
for (pos = m_format_map.map().begin(); pos != end; pos++)
several improvements to "type summary": - type names can now be regular expressions (exact matching is done first, and is faster) - integral (and floating) types can be printed as bitfields, i.e. ${var[low-high]} will extract bits low thru high of the value and print them - array subscripts are supported, both for arrays and for pointers. the syntax is ${*var[low-high]}, or ${*var[]} to print the whole array (the latter only works for statically sized arrays) - summary is now printed by default when a summary string references a variable. if that variable's type has no summary, value is printed instead. to force value, you can use %V as a format specifier - basic support for ObjectiveC: - ObjectiveC inheritance chains are now walked through - %@ can be specified as a summary format, to print the ObjectiveC runtime description for an object - some bug fixes llvm-svn: 134293
2011-07-02 08:25:22 +08:00
{
lldb::RegularExpressionSP regex = pos->first;
if (regex->Execute(key))
{
value = pos->second;
return true;
}
}
return false;
}
template<>
bool
named summaries: - a new --name option for "type summary add" lets you give a name to a summary - a new --summary option for "frame variable" lets you bind a named summary to one or more variables ${var%s} now works for printing the value of 0-terminated CStrings type format test case now tests for cascading - this is disabled on GCC because GCC may end up stripping typedef chains, basically breaking cascading new design for the FormatNavigator class new template class CleanUp2 meant to support cleanup routines with 1 additional parameter beyond resource handle llvm-svn: 134943
2011-07-12 08:18:11 +08:00
FormatNavigator<lldb::RegularExpressionSP, SummaryFormat>::Delete(const char* type)
New formatting symbol %# can be used in summary strings to get the "count of children" of a variable - accordingly, the test cases for the synthetic providers for the std:: containers have been edited to use ${svar%#} instead of ${svar.len} to print out the count of elements ; the .len synthetic child has been removed from the synthetic providers The synthetic children providers for the std:: containers now return None when asked for children indexes >= num_children() Basic code to support filter names based on regular expressions (WIP) llvm-svn: 136862
2011-08-04 10:34:29 +08:00
{
Mutex::Locker(m_format_map.mutex());
MapIterator pos, end = m_format_map.map().end();
for (pos = m_format_map.map().begin(); pos != end; pos++)
{
lldb::RegularExpressionSP regex = pos->first;
if ( ::strcmp(type,regex->GetText()) == 0)
{
m_format_map.map().erase(pos);
if (m_format_map.listener)
m_format_map.listener->Changed();
return true;
}
}
return false;
}
template<>
bool
FormatNavigator<lldb::RegularExpressionSP, SyntheticFilter>::Get(const char* key, SyntheticFilter::SharedPointer& value)
{
Mutex::Locker(m_format_map.mutex());
MapIterator pos, end = m_format_map.map().end();
for (pos = m_format_map.map().begin(); pos != end; pos++)
{
lldb::RegularExpressionSP regex = pos->first;
if (regex->Execute(key))
{
value = pos->second;
return true;
}
}
return false;
}
template<>
bool
FormatNavigator<lldb::RegularExpressionSP, SyntheticFilter>::Delete(const char* type)
*Some more optimizations in usage of ConstString *New setting target.max-children-count gives an upper-bound to the number of child objects that will be displayed at each depth-level This might be a breaking change in some scenarios. To override the new limit you can use the --show-all-children (-A) option to frame variable or increase the limit in your lldbinit file *Command "type synthetic" has been split in two: - "type synthetic" now only handles Python synthetic children providers - the new command "type filter" handles filters Because filters and synthetic providers are both ways to replace the children of a ValueObject, only one can be effective at any given time. llvm-svn: 137416
2011-08-12 10:00:06 +08:00
{
Mutex::Locker(m_format_map.mutex());
MapIterator pos, end = m_format_map.map().end();
for (pos = m_format_map.map().begin(); pos != end; pos++)
{
lldb::RegularExpressionSP regex = pos->first;
if ( ::strcmp(type,regex->GetText()) == 0)
{
m_format_map.map().erase(pos);
if (m_format_map.listener)
m_format_map.listener->Changed();
return true;
}
}
return false;
}
template<>
bool
FormatNavigator<lldb::RegularExpressionSP, SyntheticScriptProvider>::Get(const char* key, SyntheticFilter::SharedPointer& value)
{
Mutex::Locker(m_format_map.mutex());
MapIterator pos, end = m_format_map.map().end();
for (pos = m_format_map.map().begin(); pos != end; pos++)
{
lldb::RegularExpressionSP regex = pos->first;
if (regex->Execute(key))
{
value = pos->second;
return true;
}
}
return false;
}
template<>
bool
FormatNavigator<lldb::RegularExpressionSP, SyntheticScriptProvider>::Delete(const char* type)
several improvements to "type summary": - type names can now be regular expressions (exact matching is done first, and is faster) - integral (and floating) types can be printed as bitfields, i.e. ${var[low-high]} will extract bits low thru high of the value and print them - array subscripts are supported, both for arrays and for pointers. the syntax is ${*var[low-high]}, or ${*var[]} to print the whole array (the latter only works for statically sized arrays) - summary is now printed by default when a summary string references a variable. if that variable's type has no summary, value is printed instead. to force value, you can use %V as a format specifier - basic support for ObjectiveC: - ObjectiveC inheritance chains are now walked through - %@ can be specified as a summary format, to print the ObjectiveC runtime description for an object - some bug fixes llvm-svn: 134293
2011-07-02 08:25:22 +08:00
{
named summaries: - a new --name option for "type summary add" lets you give a name to a summary - a new --summary option for "frame variable" lets you bind a named summary to one or more variables ${var%s} now works for printing the value of 0-terminated CStrings type format test case now tests for cascading - this is disabled on GCC because GCC may end up stripping typedef chains, basically breaking cascading new design for the FormatNavigator class new template class CleanUp2 meant to support cleanup routines with 1 additional parameter beyond resource handle llvm-svn: 134943
2011-07-12 08:18:11 +08:00
Mutex::Locker(m_format_map.mutex());
MapIterator pos, end = m_format_map.map().end();
for (pos = m_format_map.map().begin(); pos != end; pos++)
several improvements to "type summary": - type names can now be regular expressions (exact matching is done first, and is faster) - integral (and floating) types can be printed as bitfields, i.e. ${var[low-high]} will extract bits low thru high of the value and print them - array subscripts are supported, both for arrays and for pointers. the syntax is ${*var[low-high]}, or ${*var[]} to print the whole array (the latter only works for statically sized arrays) - summary is now printed by default when a summary string references a variable. if that variable's type has no summary, value is printed instead. to force value, you can use %V as a format specifier - basic support for ObjectiveC: - ObjectiveC inheritance chains are now walked through - %@ can be specified as a summary format, to print the ObjectiveC runtime description for an object - some bug fixes llvm-svn: 134293
2011-07-02 08:25:22 +08:00
{
lldb::RegularExpressionSP regex = pos->first;
if ( ::strcmp(type,regex->GetText()) == 0)
{
named summaries: - a new --name option for "type summary add" lets you give a name to a summary - a new --summary option for "frame variable" lets you bind a named summary to one or more variables ${var%s} now works for printing the value of 0-terminated CStrings type format test case now tests for cascading - this is disabled on GCC because GCC may end up stripping typedef chains, basically breaking cascading new design for the FormatNavigator class new template class CleanUp2 meant to support cleanup routines with 1 additional parameter beyond resource handle llvm-svn: 134943
2011-07-12 08:18:11 +08:00
m_format_map.map().erase(pos);
The implementation of categories is now synchronization safe Code cleanup: - The Format Manager implementation is now split between two files: FormatClasses.{h|cpp} where the actual formatter classes (ValueFormat, SummaryFormat, ...) are implemented and FormatManager.{h|cpp} where the infrastructure classes (FormatNavigator, FormatManager, ...) are contained. The wrapper code always remains in Debugger.{h|cpp} - Several leftover fields, methods and comments from previous design choices have been removed type category subcommands (enable, disable, delete) now can take a list of category names as input - for type category enable, saying "enable A B C" is the same as saying enable C enable B enable A (the ordering is relevant in enabling categories, and it is expected that a user typing enable A B C wants to look into category A, then into B, then into C and not the other way round) - for the other two commands, the order is not really relevant (however, the same inverted ordering is used for consistency) llvm-svn: 135494
2011-07-20 02:03:25 +08:00
if (m_format_map.listener)
Fixed a bug where deleting a regex summary would not immediately reflect in the variables display The "systemwide summaries" feature has been removed and replaced with a more general and powerful mechanism. Categories: - summaries can now be grouped into buckets, called "categories" (it is expected that categories correspond to libraries and/or runtime environments) - to add a summary to a category, you can use the -w option to type summary add and give a category name (e.g. type summary add -f "foo" foo_t -w foo_category) - categories are by default disabled, which means LLDB will not look into them for summaries, to enable a category use "type category enable". once a category is enabled, LLDB will look into that category for summaries. the rules are quite trivial: every enabled category is searched for an exact match. if an exact match is nowhere to be found, any match is searched for in every enabled category (whether it involves cascading, going to base classes, ...). categories are searched into the order in which they were enabled (the most recently enabled category first, then the second most and so on..) - by default, most commands that deal with summaries, use a category named "default" if no explicit -w parameter is given (the observable behavior of LLDB should not change when categories are not explicitly used) - the systemwide summaries are now part of a "system" category llvm-svn: 135463
2011-07-19 10:34:21 +08:00
m_format_map.listener->Changed();
several improvements to "type summary": - type names can now be regular expressions (exact matching is done first, and is faster) - integral (and floating) types can be printed as bitfields, i.e. ${var[low-high]} will extract bits low thru high of the value and print them - array subscripts are supported, both for arrays and for pointers. the syntax is ${*var[low-high]}, or ${*var[]} to print the whole array (the latter only works for statically sized arrays) - summary is now printed by default when a summary string references a variable. if that variable's type has no summary, value is printed instead. to force value, you can use %V as a format specifier - basic support for ObjectiveC: - ObjectiveC inheritance chains are now walked through - %@ can be specified as a summary format, to print the ObjectiveC runtime description for an object - some bug fixes llvm-svn: 134293
2011-07-02 08:25:22 +08:00
return true;
}
}
return false;
}
smarter summary strings: - formats %s %char[] %c and %a now work to print 0-terminated c-strings if they are applied to a char* or char[] even without the [] operator (e.g. ${var%s}) - array formats (char[], intN[], ..) now work when applied to an array of a scalar type even without the [] operator (e.g. ${var%int32_t[]}) LLDB will not crash because of endless loop when trying to obtain a summary for an object that has no value and references itself in its summary string In many cases, a wrong summary string will now display an "<error>" message instead of giving out an empty string llvm-svn: 135007
2011-07-13 06:56:10 +08:00
lldb::Format
FormatManager::GetSingleItemFormat(lldb::Format vector_format)
{
switch(vector_format)
{
case eFormatVectorOfChar:
return eFormatCharArray;
case eFormatVectorOfSInt8:
case eFormatVectorOfSInt16:
case eFormatVectorOfSInt32:
case eFormatVectorOfSInt64:
return eFormatDecimal;
case eFormatVectorOfUInt8:
case eFormatVectorOfUInt16:
case eFormatVectorOfUInt32:
case eFormatVectorOfUInt64:
case eFormatVectorOfUInt128:
return eFormatHex;
case eFormatVectorOfFloat32:
case eFormatVectorOfFloat64:
return eFormatFloat;
default:
return lldb::eFormatInvalid;
}
While tracking down memory consumption issue a few things were needed: the ability to dump more information about modules in "target modules list". We can now dump the shared pointer reference count for modules, the pointer to the module itself (in case performance tools can help track down who has references to said pointer), and the modification time. Added "target delete [target-idx ...]" to be able to delete targets when they are no longer needed. This will help track down memory usage issues and help to resolve when module ref counts keep getting incremented. If the command gets no arguments, the currently selected target will be deleted. If any arguments are given, they must all be valid target indexes (use the "target list" command to get the current target indexes). Took care of a bunch of "no newline at end of file" warnings. TimeValue objects can now dump their time to a lldb_private::Stream object. Modified the "target modules list --global" command to not error out if there are no targets since it doesn't require a target. Fixed an issue in the MacOSX DYLD dynamic loader plug-in where if a shared library was updated on disk, we would keep using the older one, even if it was updated. Don't allow the ModuleList::GetSharedModule(...) to return an empty module. Previously we could specify a valid path on disc to a module, and specify an architecture that wasn't contained in that module and get a shared pointer to a module that wouldn't be able to return an object file or a symbol file. We now make sure an object file can be extracted prior to adding the shared pointer to the module to get added to the shared list. llvm-svn: 137196
2011-08-10 10:10:13 +08:00
}