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llvm-project/lldb/source/API/SBExpressionOptions.cpp
Jonas Devlieghere d5b440369d Replace 'ap' with 'up' suffix in variable names. (NFC) 
The `ap` suffix is a remnant of lldb's former use of auto pointers,
before they got deprecated. Although all their uses were replaced by
unique pointers, some variables still carried the suffix.

In r353795 I removed another auto_ptr remnant, namely redundant calls to
::get for unique_pointers. Jim justly noted that this is a good
opportunity to clean up the variable names as well.

I went over all the changes to ensure my find-and-replace didn't have
any undesired side-effects. I hope I didn't miss any, but if you end up
at this commit doing a git blame on a weirdly named variable, please
know that the change was unintentional.

llvm-svn: 353912
2019-02-13 06:25:41 +00:00

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//===-- SBExpressionOptions.cpp ---------------------------------------------*-
//C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "lldb/API/SBExpressionOptions.h"
#include "lldb/API/SBStream.h"
#include "lldb/Target/Target.h"
using namespace lldb;
using namespace lldb_private;
SBExpressionOptions::SBExpressionOptions()
: m_opaque_up(new EvaluateExpressionOptions()) {}
SBExpressionOptions::SBExpressionOptions(const SBExpressionOptions &rhs) {
m_opaque_up.reset(new EvaluateExpressionOptions());
*(m_opaque_up.get()) = rhs.ref();
}
const SBExpressionOptions &SBExpressionOptions::
operator=(const SBExpressionOptions &rhs) {
if (this != &rhs) {
this->ref() = rhs.ref();
}
return *this;
}
SBExpressionOptions::~SBExpressionOptions() {}
bool SBExpressionOptions::GetCoerceResultToId() const {
return m_opaque_up->DoesCoerceToId();
}
void SBExpressionOptions::SetCoerceResultToId(bool coerce) {
m_opaque_up->SetCoerceToId(coerce);
}
bool SBExpressionOptions::GetUnwindOnError() const {
return m_opaque_up->DoesUnwindOnError();
}
void SBExpressionOptions::SetUnwindOnError(bool unwind) {
m_opaque_up->SetUnwindOnError(unwind);
}
bool SBExpressionOptions::GetIgnoreBreakpoints() const {
return m_opaque_up->DoesIgnoreBreakpoints();
}
void SBExpressionOptions::SetIgnoreBreakpoints(bool ignore) {
m_opaque_up->SetIgnoreBreakpoints(ignore);
}
lldb::DynamicValueType SBExpressionOptions::GetFetchDynamicValue() const {
return m_opaque_up->GetUseDynamic();
}
void SBExpressionOptions::SetFetchDynamicValue(lldb::DynamicValueType dynamic) {
m_opaque_up->SetUseDynamic(dynamic);
}
uint32_t SBExpressionOptions::GetTimeoutInMicroSeconds() const {
return m_opaque_up->GetTimeout() ? m_opaque_up->GetTimeout()->count() : 0;
}
void SBExpressionOptions::SetTimeoutInMicroSeconds(uint32_t timeout) {
m_opaque_up->SetTimeout(timeout == 0 ? Timeout<std::micro>(llvm::None)
: std::chrono::microseconds(timeout));
}
uint32_t SBExpressionOptions::GetOneThreadTimeoutInMicroSeconds() const {
return m_opaque_up->GetOneThreadTimeout()
? m_opaque_up->GetOneThreadTimeout()->count()
: 0;
}
void SBExpressionOptions::SetOneThreadTimeoutInMicroSeconds(uint32_t timeout) {
m_opaque_up->SetOneThreadTimeout(timeout == 0
? Timeout<std::micro>(llvm::None)
: std::chrono::microseconds(timeout));
}
bool SBExpressionOptions::GetTryAllThreads() const {
return m_opaque_up->GetTryAllThreads();
}
void SBExpressionOptions::SetTryAllThreads(bool run_others) {
m_opaque_up->SetTryAllThreads(run_others);
}
bool SBExpressionOptions::GetStopOthers() const {
return m_opaque_up->GetStopOthers();
}
void SBExpressionOptions::SetStopOthers(bool run_others) {
m_opaque_up->SetStopOthers(run_others);
}
bool SBExpressionOptions::GetTrapExceptions() const {
return m_opaque_up->GetTrapExceptions();
}
void SBExpressionOptions::SetTrapExceptions(bool trap_exceptions) {
m_opaque_up->SetTrapExceptions(trap_exceptions);
}
void SBExpressionOptions::SetLanguage(lldb::LanguageType language) {
m_opaque_up->SetLanguage(language);
}
void SBExpressionOptions::SetCancelCallback(
lldb::ExpressionCancelCallback callback, void *baton) {
m_opaque_up->SetCancelCallback(callback, baton);
}
bool SBExpressionOptions::GetGenerateDebugInfo() {
return m_opaque_up->GetGenerateDebugInfo();
}
void SBExpressionOptions::SetGenerateDebugInfo(bool b) {
return m_opaque_up->SetGenerateDebugInfo(b);
}
bool SBExpressionOptions::GetSuppressPersistentResult() {
return m_opaque_up->GetResultIsInternal();
}
void SBExpressionOptions::SetSuppressPersistentResult(bool b) {
return m_opaque_up->SetResultIsInternal(b);
}
const char *SBExpressionOptions::GetPrefix() const {
return m_opaque_up->GetPrefix();
}
void SBExpressionOptions::SetPrefix(const char *prefix) {
return m_opaque_up->SetPrefix(prefix);
}
bool SBExpressionOptions::GetAutoApplyFixIts() {
return m_opaque_up->GetAutoApplyFixIts();
}
void SBExpressionOptions::SetAutoApplyFixIts(bool b) {
return m_opaque_up->SetAutoApplyFixIts(b);
}
bool SBExpressionOptions::GetTopLevel() {
return m_opaque_up->GetExecutionPolicy() == eExecutionPolicyTopLevel;
}
void SBExpressionOptions::SetTopLevel(bool b) {
m_opaque_up->SetExecutionPolicy(b ? eExecutionPolicyTopLevel
: m_opaque_up->default_execution_policy);
}
bool SBExpressionOptions::GetAllowJIT() {
return m_opaque_up->GetExecutionPolicy() != eExecutionPolicyNever;
}
void SBExpressionOptions::SetAllowJIT(bool allow) {
m_opaque_up->SetExecutionPolicy(allow ? m_opaque_up->default_execution_policy
: eExecutionPolicyNever);
}
EvaluateExpressionOptions *SBExpressionOptions::get() const {
return m_opaque_up.get();
}
EvaluateExpressionOptions &SBExpressionOptions::ref() const {
return *(m_opaque_up.get());
}
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