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The DumpDataExtractor function had two branches for printing floating
point values. One branch (APFloat) was used if we had a Target object
around and could query it for the appropriate semantics. If we didn't
have a Target, we used host operations to read and format the value.
This patch changes second path to use APFloat as well. To make it work,
I pick reasonable defaults for different byte size. Notably, I did not
include x87 long double in that list (as it is ambibuous and
architecture-specific). This exposed a bug where we were printing
register values using the target-less branch, even though the registers
definitely belong to a target, and we had it available. Fixing this
prompted the update of several tests for register values due to slightly
different floating point outputs.
The most dubious aspect of this patch is the change in
TypeSystemClang::GetFloatTypeSemantics to recognize `10` as a valid size
for x87 long double. This was necessary because because sizeof(long
double) on x86_64 is 16 even though it only holds 10 bytes of useful
data. This generalizes the hackaround present in the target-free branch
of the dumping function.
Repository:
rG LLVM Github Monorepo
https://reviews.llvm.org/D129750
Files:
lldb/include/lldb/Core/DumpRegisterValue.h
lldb/source/Commands/CommandObjectRegister.cpp
lldb/source/Core/DumpDataExtractor.cpp
lldb/source/Core/DumpRegisterValue.cpp
lldb/source/Plugins/TypeSystem/Clang/TypeSystemClang.cpp
lldb/test/API/functionalities/postmortem/elf-core/TestLinuxCore.py
lldb/unittests/Core/DumpDataExtractorTest.cpp
Index: lldb/unittests/Core/DumpDataExtractorTest.cpp
===================================================================
--- lldb/unittests/Core/DumpDataExtractorTest.cpp
+++ lldb/unittests/Core/DumpDataExtractorTest.cpp
@@ -138,7 +138,7 @@
TestDump(-1, lldb::Format::eFormatEnum, "-1");
TestDump(0xcafef00d, lldb::Format::eFormatHex, "0xcafef00d");
TestDump(0xcafef00d, lldb::Format::eFormatHexUppercase, "0xCAFEF00D");
- TestDump(0.456, lldb::Format::eFormatFloat, "0.456");
+ TestDump(0.456, lldb::Format::eFormatFloat, "0.45600000000000002");
TestDump(9, lldb::Format::eFormatOctal, "011");
// Chars packed into an integer.
TestDump<uint32_t>(0x4C4C4442, lldb::Format::eFormatOSType, "'LLDB'");
@@ -180,44 +180,39 @@
lldb::Format::eFormatVectorOfFloat16, "{0 -0}");
// Some subnormal numbers.
TestDump(std::vector<uint16_t>{0x0001, 0x8001},
- lldb::Format::eFormatVectorOfFloat16, "{5.96046e-08 -5.96046e-08}");
+ lldb::Format::eFormatVectorOfFloat16, "{5.9605E-8 -5.9605E-8}");
// A full mantisse and empty expontent.
TestDump(std::vector<uint16_t>{0x83ff, 0x03ff},
- lldb::Format::eFormatVectorOfFloat16, "{-6.09756e-05 6.09756e-05}");
+ lldb::Format::eFormatVectorOfFloat16, "{-6.0976E-5 6.0976E-5}");
// Some normal numbers.
TestDump(std::vector<uint16_t>{0b0100001001001000},
- lldb::Format::eFormatVectorOfFloat16,
-#if defined(_MSC_VER) && _MSC_VER < 1920
- // FIXME: This should print the same on all platforms.
- "{3.14063}");
-#else
- "{3.14062}");
-#endif
+ lldb::Format::eFormatVectorOfFloat16, "{3.1406}");
// Largest and smallest normal number.
TestDump(std::vector<uint16_t>{0x0400, 0x7bff},
- lldb::Format::eFormatVectorOfFloat16, "{6.10352e-05 65504}");
+ lldb::Format::eFormatVectorOfFloat16, "{6.1035E-5 65504}");
TestDump(std::vector<uint16_t>{0xabcd, 0x1234},
- lldb::Format::eFormatVectorOfFloat16, "{-0.0609436 0.000757217}");
+ lldb::Format::eFormatVectorOfFloat16, "{-0.060944 7.5722E-4}");
// quiet/signaling NaNs.
TestDump(std::vector<uint16_t>{0xffff, 0xffc0, 0x7fff, 0x7fc0},
- lldb::Format::eFormatVectorOfFloat16, "{-nan -nan nan nan}");
+ lldb::Format::eFormatVectorOfFloat16, "{NaN NaN NaN NaN}");
// +/-Inf.
TestDump(std::vector<uint16_t>{0xfc00, 0x7c00},
- lldb::Format::eFormatVectorOfFloat16, "{-inf inf}");
+ lldb::Format::eFormatVectorOfFloat16, "{-Inf +Inf}");
TestDump(std::vector<float>{std::numeric_limits<float>::min(),
std::numeric_limits<float>::max()},
- lldb::Format::eFormatVectorOfFloat32, "{1.17549e-38 3.40282e+38}");
+ lldb::Format::eFormatVectorOfFloat32,
+ "{1.17549435E-38 3.40282347E+38}");
TestDump(std::vector<float>{std::numeric_limits<float>::quiet_NaN(),
std::numeric_limits<float>::signaling_NaN(),
-std::numeric_limits<float>::quiet_NaN(),
-std::numeric_limits<float>::signaling_NaN()},
- lldb::Format::eFormatVectorOfFloat32, "{nan nan -nan -nan}");
+ lldb::Format::eFormatVectorOfFloat32, "{NaN NaN NaN NaN}");
TestDump(std::vector<double>{std::numeric_limits<double>::min(),
std::numeric_limits<double>::max()},
lldb::Format::eFormatVectorOfFloat64,
- "{2.2250738585072e-308 1.79769313486232e+308}");
+ "{2.2250738585072014E-308 1.7976931348623157E+308}");
TestDump(
std::vector<double>{
std::numeric_limits<double>::quiet_NaN(),
@@ -225,7 +220,7 @@
-std::numeric_limits<double>::quiet_NaN(),
-std::numeric_limits<double>::signaling_NaN(),
},
- lldb::Format::eFormatVectorOfFloat64, "{nan nan -nan -nan}");
+ lldb::Format::eFormatVectorOfFloat64, "{NaN NaN NaN NaN}");
// Not sure we can rely on having uint128_t everywhere so emulate with
// uint64_t.
Index: lldb/test/API/functionalities/postmortem/elf-core/TestLinuxCore.py
===================================================================
--- lldb/test/API/functionalities/postmortem/elf-core/TestLinuxCore.py
+++ lldb/test/API/functionalities/postmortem/elf-core/TestLinuxCore.py
@@ -315,20 +315,20 @@
values["s5"] = "5.5"
values["s6"] = "6.5"
values["s7"] = "7.5"
- values["s8"] = "1.14437e-28"
+ values["s8"] = "1.14437421E-28"
values["s30"] = "0"
- values["s31"] = "6.40969e-10"
+ values["s31"] = "6.40969056E-10"
values["d0"] = "0.5"
values["d1"] = "1.5"
values["d2"] = "2.5"
values["d3"] = "3.5"
- values["d4"] = "5.35161536149201e-315"
- values["d5"] = "5.36197666906508e-315"
- values["d6"] = "5.37233797663815e-315"
- values["d7"] = "5.38269928421123e-315"
- values["d8"] = "1.80107573659442e-226"
+ values["d4"] = "5.3516153614920076E-315"
+ values["d5"] = "5.3619766690650802E-315"
+ values["d6"] = "5.3723379766381528E-315"
+ values["d7"] = "5.3826992842112254E-315"
+ values["d8"] = "1.8010757365944223E-226"
values["d30"] = "0"
- values["d31"] = "1.39804328609529e-76"
+ values["d31"] = "1.3980432860952889E-76"
values["fpsr"] = "0x00000000"
values["fpcr"] = "0x00000000"
@@ -373,20 +373,20 @@
values["s5"] = "5.5"
values["s6"] = "6.5"
values["s7"] = "7.5"
- values["s8"] = "1.14437e-28"
+ values["s8"] = "1.14437421E-28"
values["s30"] = "0"
- values["s31"] = "6.40969e-10"
+ values["s31"] = "6.40969056E-10"
values["d0"] = "0.5"
values["d1"] = "1.5"
values["d2"] = "2.5"
values["d3"] = "3.5"
- values["d4"] = "5.35161536149201e-315"
- values["d5"] = "5.36197666906508e-315"
- values["d6"] = "5.37233797663815e-315"
- values["d7"] = "5.38269928421123e-315"
- values["d8"] = "1.80107573659442e-226"
+ values["d4"] = "5.3516153614920076E-315"
+ values["d5"] = "5.3619766690650802E-315"
+ values["d6"] = "5.3723379766381528E-315"
+ values["d7"] = "5.3826992842112254E-315"
+ values["d8"] = "1.8010757365944223E-226"
values["d30"] = "0"
- values["d31"] = "1.39804328609529e-76"
+ values["d31"] = "1.3980432860952889E-76"
values["fpsr"] = "0x00000000"
values["fpcr"] = "0x00000000"
values["vg"] = "0x0000000000000004"
@@ -449,7 +449,7 @@
values["d0"] = "65536.0158538818"
values["d1"] = "1572864.25476074"
values["d2"] = "0"
- values["d3"] = "25165828.0917969"
+ values["d3"] = "25165828.091796875"
values["vg"] = "0x0000000000000004"
values["z0"] = "{0x00 0x00 0xf0 0x40 0x00 0x00 0xf0 0x40 0x00 0x00 0xf0 0x40 0x00 0x00 0xf0 0x40 0x00 0x00 0xf0 0x40 0x00 0x00 0xf0 0x40 0x00 0x00 0xf0 0x40 0x00 0x00 0xf0 0x40}"
values["z1"] = "{0x00 0x00 0x38 0x41 0x00 0x00 0x38 0x41 0x00 0x00 0x38 0x41 0x00 0x00 0x38 0x41 0x00 0x00 0x38 0x41 0x00 0x00 0x38 0x41 0x00 0x00 0x38 0x41 0x00 0x00 0x38 0x41}"
Index: lldb/source/Plugins/TypeSystem/Clang/TypeSystemClang.cpp
===================================================================
--- lldb/source/Plugins/TypeSystem/Clang/TypeSystemClang.cpp
+++ lldb/source/Plugins/TypeSystem/Clang/TypeSystemClang.cpp
@@ -4670,7 +4670,9 @@
return ast.getFloatTypeSemantics(ast.FloatTy);
else if (bit_size == ast.getTypeSize(ast.DoubleTy))
return ast.getFloatTypeSemantics(ast.DoubleTy);
- else if (bit_size == ast.getTypeSize(ast.LongDoubleTy))
+ else if (bit_size == ast.getTypeSize(ast.LongDoubleTy) ||
+ bit_size == llvm::APFloat::semanticsSizeInBits(
+ ast.getFloatTypeSemantics(ast.LongDoubleTy)))
return ast.getFloatTypeSemantics(ast.LongDoubleTy);
else if (bit_size == ast.getTypeSize(ast.HalfTy))
return ast.getFloatTypeSemantics(ast.HalfTy);
Index: lldb/source/Core/DumpRegisterValue.cpp
===================================================================
--- lldb/source/Core/DumpRegisterValue.cpp
+++ lldb/source/Core/DumpRegisterValue.cpp
@@ -19,7 +19,8 @@
const RegisterInfo *reg_info,
bool prefix_with_name,
bool prefix_with_alt_name, Format format,
- uint32_t reg_name_right_align_at) {
+ uint32_t reg_name_right_align_at,
+ ExecutionContextScope *exe_scope) {
DataExtractor data;
if (reg_val.GetData(data)) {
bool name_printed = false;
@@ -71,7 +72,8 @@
UINT32_MAX, // num_per_line
LLDB_INVALID_ADDRESS, // base_addr
0, // item_bit_size
- 0); // item_bit_offset
+ 0, // item_bit_offset
+ exe_scope);
return true;
}
return false;
Index: lldb/source/Core/DumpDataExtractor.cpp
===================================================================
--- lldb/source/Core/DumpDataExtractor.cpp
+++ lldb/source/Core/DumpDataExtractor.cpp
@@ -50,25 +50,6 @@
#define NON_PRINTABLE_CHAR '.'
-static float half2float(uint16_t half) {
- union {
- float f;
- uint32_t u;
- } u;
- // Sign extend to 4 byte.
- int32_t sign_extended = static_cast<int16_t>(half);
- uint32_t v = static_cast<uint32_t>(sign_extended);
-
- if (0 == (v & 0x7c00)) {
- u.u = v & 0x80007FFFU;
- return u.f * ldexpf(1, 125);
- }
-
- v <<= 13;
- u.u = v | 0x70000000U;
- return u.f * ldexpf(1, -112);
-}
-
static llvm::Optional<llvm::APInt> GetAPInt(const DataExtractor &data,
lldb::offset_t *offset_ptr,
lldb::offset_t byte_size) {
@@ -335,6 +316,27 @@
s->PutCString(")");
}
+static const llvm::fltSemantics &GetFloatSemantics(const TargetSP &target_sp,
+ size_t byte_size) {
+ if (target_sp) {
+ if (auto type_system_or_err =
+ target_sp->GetScratchTypeSystemForLanguage(eLanguageTypeC))
+ return type_system_or_err->GetFloatTypeSemantics(byte_size);
+ else
+ llvm::consumeError(type_system_or_err.takeError());
+ }
+ // No target, just make a reasonable guess
+ switch(byte_size) {
+ case 2:
+ return llvm::APFloat::IEEEhalf();
+ case 4:
+ return llvm::APFloat::IEEEsingle();
+ case 8:
+ return llvm::APFloat::IEEEdouble();
+ }
+ return llvm::APFloat::Bogus();
+}
+
lldb::offset_t lldb_private::DumpDataExtractor(
const DataExtractor &DE, Stream *s, offset_t start_offset,
lldb::Format item_format, size_t item_byte_size, size_t item_count,
@@ -644,70 +646,38 @@
case eFormatFloat: {
TargetSP target_sp;
- bool used_upfloat = false;
if (exe_scope)
target_sp = exe_scope->CalculateTarget();
- if (target_sp) {
- auto type_system_or_err =
- target_sp->GetScratchTypeSystemForLanguage(eLanguageTypeC);
- if (!type_system_or_err) {
- llvm::consumeError(type_system_or_err.takeError());
- } else {
- auto &type_system = *type_system_or_err;
- llvm::SmallVector<char, 256> sv;
- // Show full precision when printing float values
- const unsigned format_precision = 0;
- const unsigned format_max_padding =
- target_sp->GetMaxZeroPaddingInFloatFormat();
-
- const auto &semantics =
- type_system.GetFloatTypeSemantics(item_byte_size);
-
- // Recalculate the byte size in case of a difference. This is possible
- // when item_byte_size is 16 (128-bit), because you could get back the
- // x87DoubleExtended semantics which has a byte size of 10 (80-bit).
- const size_t semantics_byte_size =
- (llvm::APFloat::getSizeInBits(semantics) + 7) / 8;
- llvm::Optional<llvm::APInt> apint =
- GetAPInt(DE, &offset, semantics_byte_size);
- if (apint) {
- llvm::APFloat apfloat(semantics, apint.getValue());
- apfloat.toString(sv, format_precision, format_max_padding);
- if (!sv.empty()) {
- s->Printf("%*.*s", (int)sv.size(), (int)sv.size(), sv.data());
- used_upfloat = true;
- }
- }
- }
- }
- if (!used_upfloat) {
- std::ostringstream ss;
- if (item_byte_size == sizeof(float) || item_byte_size == 2) {
- float f;
- if (item_byte_size == 2) {
- uint16_t half = DE.GetU16(&offset);
- f = half2float(half);
- } else {
- f = DE.GetFloat(&offset);
- }
- ss.precision(std::numeric_limits<float>::digits10);
- DumpFloatingPoint(ss, f);
- } else if (item_byte_size == sizeof(double)) {
- ss.precision(std::numeric_limits<double>::digits10);
- DumpFloatingPoint(ss, DE.GetDouble(&offset));
- } else if (item_byte_size == sizeof(long double) ||
- item_byte_size == 10) {
- ss.precision(std::numeric_limits<long double>::digits10);
- DumpFloatingPoint(ss, DE.GetLongDouble(&offset));
- } else {
- s->Printf("error: unsupported byte size (%" PRIu64
- ") for float format",
- (uint64_t)item_byte_size);
- return offset;
- }
- ss.flush();
- s->Printf("%s", ss.str().c_str());
+ llvm::Optional<unsigned> format_max_padding;
+ if (target_sp)
+ format_max_padding = target_sp->GetMaxZeroPaddingInFloatFormat();
+
+ // Show full precision when printing float values
+ const unsigned format_precision = 0;
+
+ const llvm::fltSemantics &semantics =
+ GetFloatSemantics(target_sp, item_byte_size);
+
+ // Recalculate the byte size in case of a difference. This is possible
+ // when item_byte_size is 16 (128-bit), because you could get back the
+ // x87DoubleExtended semantics which has a byte size of 10 (80-bit).
+ const size_t semantics_byte_size =
+ (llvm::APFloat::getSizeInBits(semantics) + 7) / 8;
+ llvm::Optional<llvm::APInt> apint =
+ GetAPInt(DE, &offset, semantics_byte_size);
+ if (apint) {
+ llvm::APFloat apfloat(semantics, apint.getValue());
+ llvm::SmallVector<char, 256> sv;
+ if (format_max_padding)
+ apfloat.toString(sv, format_precision, *format_max_padding);
+ else
+ apfloat.toString(sv, format_precision);
+ s->AsRawOstream() << sv;
+ } else {
+ s->Format("error: unsupported byte size ({0}) for float format",
+ item_byte_size);
+ return offset;
}
} break;
Index: lldb/source/Commands/CommandObjectRegister.cpp
===================================================================
--- lldb/source/Commands/CommandObjectRegister.cpp
+++ lldb/source/Commands/CommandObjectRegister.cpp
@@ -93,7 +93,8 @@
bool prefix_with_altname = (bool)m_command_options.alternate_name;
bool prefix_with_name = !prefix_with_altname;
DumpRegisterValue(reg_value, &strm, reg_info, prefix_with_name,
- prefix_with_altname, m_format_options.GetFormat(), 8);
+ prefix_with_altname, m_format_options.GetFormat(), 8,
+ exe_ctx.GetBestExecutionContextScope());
if ((reg_info->encoding == eEncodingUint) ||
(reg_info->encoding == eEncodingSint)) {
Process *process = exe_ctx.GetProcessPtr();
Index: lldb/include/lldb/Core/DumpRegisterValue.h
===================================================================
--- lldb/include/lldb/Core/DumpRegisterValue.h
+++ lldb/include/lldb/Core/DumpRegisterValue.h
@@ -14,6 +14,7 @@
namespace lldb_private {
+class ExecutionContextScope;
class RegisterValue;
struct RegisterInfo;
class Stream;
@@ -23,7 +24,8 @@
bool DumpRegisterValue(const RegisterValue ®_val, Stream *s,
const RegisterInfo *reg_info, bool prefix_with_name,
bool prefix_with_alt_name, lldb::Format format,
- uint32_t reg_name_right_align_at = 0);
+ uint32_t reg_name_right_align_at = 0,
+ ExecutionContextScope *exe_scope = nullptr);
} // namespace lldb_private
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