src/third_party/llvm-project/lldb/include/lldb/Core/RegisterValue.h - cobalt - Git at Google

 //===-- RegisterValue.h -----------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef lldb_RegisterValue_h
 #define lldb_RegisterValue_h

 #include "lldb/Core/Scalar.h"
 #include "lldb/Utility/Endian.h"
 #include "lldb/Utility/Status.h"    // for Status
 #include "lldb/lldb-enumerations.h" // for ByteOrder, Format
 #include "lldb/lldb-types.h"        // for offset_t

 #include "llvm/ADT/APInt.h"
 #include "llvm/ADT/StringRef.h" // for StringRef

 #include <stdint.h> // for uint32_t, uint8_t, uint64_t, uin...
 #include <string.h>

 namespace lldb_private {
 class DataExtractor;
 }
 namespace lldb_private {
 class Stream;
 }
 namespace lldb_private {
 struct RegisterInfo;
 }
 namespace lldb_private {

 class RegisterValue {
 public:
   enum { kMaxRegisterByteSize = 64u };

   enum Type {
     eTypeInvalid,
     eTypeUInt8,
     eTypeUInt16,
     eTypeUInt32,
     eTypeUInt64,
     eTypeUInt128,
     eTypeFloat,
     eTypeDouble,
     eTypeLongDouble,
     eTypeBytes
   };

   RegisterValue() : m_type(eTypeInvalid), m_scalar((unsigned long)0) {}

   explicit RegisterValue(uint8_t inst) : m_type(eTypeUInt8) { m_scalar = inst; }

   explicit RegisterValue(uint16_t inst) : m_type(eTypeUInt16) {
     m_scalar = inst;
   }

   explicit RegisterValue(uint32_t inst) : m_type(eTypeUInt32) {
     m_scalar = inst;
   }

   explicit RegisterValue(uint64_t inst) : m_type(eTypeUInt64) {
     m_scalar = inst;
   }

   explicit RegisterValue(llvm::APInt inst) : m_type(eTypeUInt128) {
     m_scalar = llvm::APInt(inst);
   }

   explicit RegisterValue(float value) : m_type(eTypeFloat) { m_scalar = value; }

   explicit RegisterValue(double value) : m_type(eTypeDouble) {
     m_scalar = value;
   }

   explicit RegisterValue(long double value) : m_type(eTypeLongDouble) {
     m_scalar = value;
   }

   explicit RegisterValue(uint8_t *bytes, size_t length,
                          lldb::ByteOrder byte_order) {
     SetBytes(bytes, length, byte_order);
   }

   RegisterValue::Type GetType() const { return m_type; }

   bool CopyValue(const RegisterValue &rhs);

   void SetType(RegisterValue::Type type) { m_type = type; }

   RegisterValue::Type SetType(const RegisterInfo *reg_info);

   bool GetData(DataExtractor &data) const;

   // Copy the register value from this object into a buffer in "dst" and obey
   // the "dst_byte_order" when copying the data. Also watch out in case
   // "dst_len" is longer or shorter than the register value described by
   // "reg_info" and only copy the least significant bytes of the register
   // value, or pad the destination with zeroes if the register byte size is
   // shorter that "dst_len" (all while correctly abiding the "dst_byte_order").
   // Returns the number of bytes copied into "dst".
   uint32_t GetAsMemoryData(const RegisterInfo *reg_info, void *dst,
                            uint32_t dst_len, lldb::ByteOrder dst_byte_order,
                            Status &error) const;

   uint32_t SetFromMemoryData(const RegisterInfo *reg_info, const void *src,
                              uint32_t src_len, lldb::ByteOrder src_byte_order,
                              Status &error);

   bool GetScalarValue(Scalar &scalar) const;

   uint8_t GetAsUInt8(uint8_t fail_value = UINT8_MAX,
                      bool *success_ptr = nullptr) const {
     if (m_type == eTypeUInt8) {
       if (success_ptr)
         *success_ptr = true;
       return m_scalar.UChar(fail_value);
     }
     if (success_ptr)
       *success_ptr = true;
     return fail_value;
   }

   uint16_t GetAsUInt16(uint16_t fail_value = UINT16_MAX,
                        bool *success_ptr = nullptr) const;

   uint32_t GetAsUInt32(uint32_t fail_value = UINT32_MAX,
                        bool *success_ptr = nullptr) const;

   uint64_t GetAsUInt64(uint64_t fail_value = UINT64_MAX,
                        bool *success_ptr = nullptr) const;

   llvm::APInt GetAsUInt128(const llvm::APInt &fail_value,
                            bool *success_ptr = nullptr) const;

   float GetAsFloat(float fail_value = 0.0f, bool *success_ptr = nullptr) const;

   double GetAsDouble(double fail_value = 0.0,
                      bool *success_ptr = nullptr) const;

   long double GetAsLongDouble(long double fail_value = 0.0,
                               bool *success_ptr = nullptr) const;

   void SetValueToInvalid() { m_type = eTypeInvalid; }

   bool ClearBit(uint32_t bit);

   bool SetBit(uint32_t bit);

   bool operator==(const RegisterValue &rhs) const;

   bool operator!=(const RegisterValue &rhs) const;

   void operator=(uint8_t uint) {
     m_type = eTypeUInt8;
     m_scalar = uint;
   }

   void operator=(uint16_t uint) {
     m_type = eTypeUInt16;
     m_scalar = uint;
   }

   void operator=(uint32_t uint) {
     m_type = eTypeUInt32;
     m_scalar = uint;
   }

   void operator=(uint64_t uint) {
     m_type = eTypeUInt64;
     m_scalar = uint;
   }

   void operator=(llvm::APInt uint) {
     m_type = eTypeUInt128;
     m_scalar = llvm::APInt(uint);
   }

   void operator=(float f) {
     m_type = eTypeFloat;
     m_scalar = f;
   }

   void operator=(double f) {
     m_type = eTypeDouble;
     m_scalar = f;
   }

   void operator=(long double f) {
     m_type = eTypeLongDouble;
     m_scalar = f;
   }

   void SetUInt8(uint8_t uint) {
     m_type = eTypeUInt8;
     m_scalar = uint;
   }

   void SetUInt16(uint16_t uint) {
     m_type = eTypeUInt16;
     m_scalar = uint;
   }

   void SetUInt32(uint32_t uint, Type t = eTypeUInt32) {
     m_type = t;
     m_scalar = uint;
   }

   void SetUInt64(uint64_t uint, Type t = eTypeUInt64) {
     m_type = t;
     m_scalar = uint;
   }

   void SetUInt128(llvm::APInt uint) {
     m_type = eTypeUInt128;
     m_scalar = uint;
   }

   bool SetUInt(uint64_t uint, uint32_t byte_size);

   void SetFloat(float f) {
     m_type = eTypeFloat;
     m_scalar = f;
   }

   void SetDouble(double f) {
     m_type = eTypeDouble;
     m_scalar = f;
   }

   void SetLongDouble(long double f) {
     m_type = eTypeLongDouble;
     m_scalar = f;
   }

   void SetBytes(const void *bytes, size_t length, lldb::ByteOrder byte_order);

   bool SignExtend(uint32_t sign_bitpos);

   Status SetValueFromString(const RegisterInfo *reg_info,
                             llvm::StringRef value_str);
   Status SetValueFromString(const RegisterInfo *reg_info,
                             const char *value_str) = delete;

   Status SetValueFromData(const RegisterInfo *reg_info, DataExtractor &data,
                           lldb::offset_t offset, bool partial_data_ok);

   const void *GetBytes() const;

   lldb::ByteOrder GetByteOrder() const {
     if (m_type == eTypeBytes)
       return buffer.byte_order;
     return endian::InlHostByteOrder();
   }

   uint32_t GetByteSize() const;

   static uint32_t GetMaxByteSize() { return kMaxRegisterByteSize; }

   void Clear();

 protected:
   RegisterValue::Type m_type;
   Scalar m_scalar;

   struct {
     uint8_t bytes[kMaxRegisterByteSize]; // This must be big enough to hold any
                                          // register for any supported target.
     uint8_t length;
     lldb::ByteOrder byte_order;
   } buffer;
 };

 } // namespace lldb_private

 #endif // lldb_RegisterValue_h
	//===-- RegisterValue.h ------------------------------------------ C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef lldb_RegisterValue_h
	#define lldb_RegisterValue_h

	#include "lldb/Core/Scalar.h"
	#include "lldb/Utility/Endian.h"
	#include "lldb/Utility/Status.h" // for Status
	#include "lldb/lldb-enumerations.h" // for ByteOrder, Format
	#include "lldb/lldb-types.h" // for offset_t

	#include "llvm/ADT/APInt.h"
	#include "llvm/ADT/StringRef.h" // for StringRef

	#include <stdint.h> // for uint32_t, uint8_t, uint64_t, uin...
	#include <string.h>

	namespace lldb_private {
	class DataExtractor;
	}
	namespace lldb_private {
	class Stream;
	}
	namespace lldb_private {
	struct RegisterInfo;
	}
	namespace lldb_private {

	class RegisterValue {
	public:
	enum { kMaxRegisterByteSize = 64u };

	enum Type {
	eTypeInvalid,
	eTypeUInt8,
	eTypeUInt16,
	eTypeUInt32,
	eTypeUInt64,
	eTypeUInt128,
	eTypeFloat,
	eTypeDouble,
	eTypeLongDouble,
	eTypeBytes
	};

	RegisterValue() : m_type(eTypeInvalid), m_scalar((unsigned long)0) {}

	explicit RegisterValue(uint8_t inst) : m_type(eTypeUInt8) { m_scalar = inst; }

	explicit RegisterValue(uint16_t inst) : m_type(eTypeUInt16) {
	m_scalar = inst;
	}

	explicit RegisterValue(uint32_t inst) : m_type(eTypeUInt32) {
	m_scalar = inst;
	}

	explicit RegisterValue(uint64_t inst) : m_type(eTypeUInt64) {
	m_scalar = inst;
	}

	explicit RegisterValue(llvm::APInt inst) : m_type(eTypeUInt128) {
	m_scalar = llvm::APInt(inst);
	}

	explicit RegisterValue(float value) : m_type(eTypeFloat) { m_scalar = value; }

	explicit RegisterValue(double value) : m_type(eTypeDouble) {
	m_scalar = value;
	}

	explicit RegisterValue(long double value) : m_type(eTypeLongDouble) {
	m_scalar = value;
	}

	explicit RegisterValue(uint8_t *bytes, size_t length,
	lldb::ByteOrder byte_order) {
	SetBytes(bytes, length, byte_order);
	}

	RegisterValue::Type GetType() const { return m_type; }

	bool CopyValue(const RegisterValue &rhs);

	void SetType(RegisterValue::Type type) { m_type = type; }

	RegisterValue::Type SetType(const RegisterInfo *reg_info);

	bool GetData(DataExtractor &data) const;

	// Copy the register value from this object into a buffer in "dst" and obey
	// the "dst_byte_order" when copying the data. Also watch out in case
	// "dst_len" is longer or shorter than the register value described by
	// "reg_info" and only copy the least significant bytes of the register
	// value, or pad the destination with zeroes if the register byte size is
	// shorter that "dst_len" (all while correctly abiding the "dst_byte_order").
	// Returns the number of bytes copied into "dst".
	uint32_t GetAsMemoryData(const RegisterInfo reg_info, void dst,
	uint32_t dst_len, lldb::ByteOrder dst_byte_order,
	Status &error) const;

	uint32_t SetFromMemoryData(const RegisterInfo reg_info, const void src,
	uint32_t src_len, lldb::ByteOrder src_byte_order,
	Status &error);

	bool GetScalarValue(Scalar &scalar) const;

	uint8_t GetAsUInt8(uint8_t fail_value = UINT8_MAX,
	bool *success_ptr = nullptr) const {
	if (m_type == eTypeUInt8) {
	if (success_ptr)
	*success_ptr = true;
	return m_scalar.UChar(fail_value);
	}
	if (success_ptr)
	*success_ptr = true;
	return fail_value;
	}

	uint16_t GetAsUInt16(uint16_t fail_value = UINT16_MAX,
	bool *success_ptr = nullptr) const;

	uint32_t GetAsUInt32(uint32_t fail_value = UINT32_MAX,
	bool *success_ptr = nullptr) const;

	uint64_t GetAsUInt64(uint64_t fail_value = UINT64_MAX,
	bool *success_ptr = nullptr) const;

	llvm::APInt GetAsUInt128(const llvm::APInt &fail_value,
	bool *success_ptr = nullptr) const;

	float GetAsFloat(float fail_value = 0.0f, bool *success_ptr = nullptr) const;

	double GetAsDouble(double fail_value = 0.0,
	bool *success_ptr = nullptr) const;

	long double GetAsLongDouble(long double fail_value = 0.0,
	bool *success_ptr = nullptr) const;

	void SetValueToInvalid() { m_type = eTypeInvalid; }

	bool ClearBit(uint32_t bit);

	bool SetBit(uint32_t bit);

	bool operator==(const RegisterValue &rhs) const;

	bool operator!=(const RegisterValue &rhs) const;

	void operator=(uint8_t uint) {
	m_type = eTypeUInt8;
	m_scalar = uint;
	}

	void operator=(uint16_t uint) {
	m_type = eTypeUInt16;
	m_scalar = uint;
	}

	void operator=(uint32_t uint) {
	m_type = eTypeUInt32;
	m_scalar = uint;
	}

	void operator=(uint64_t uint) {
	m_type = eTypeUInt64;
	m_scalar = uint;
	}

	void operator=(llvm::APInt uint) {
	m_type = eTypeUInt128;
	m_scalar = llvm::APInt(uint);
	}

	void operator=(float f) {
	m_type = eTypeFloat;
	m_scalar = f;
	}

	void operator=(double f) {
	m_type = eTypeDouble;
	m_scalar = f;
	}

	void operator=(long double f) {
	m_type = eTypeLongDouble;
	m_scalar = f;
	}

	void SetUInt8(uint8_t uint) {
	m_type = eTypeUInt8;
	m_scalar = uint;
	}

	void SetUInt16(uint16_t uint) {
	m_type = eTypeUInt16;
	m_scalar = uint;
	}

	void SetUInt32(uint32_t uint, Type t = eTypeUInt32) {
	m_type = t;
	m_scalar = uint;
	}

	void SetUInt64(uint64_t uint, Type t = eTypeUInt64) {
	m_type = t;
	m_scalar = uint;
	}

	void SetUInt128(llvm::APInt uint) {
	m_type = eTypeUInt128;
	m_scalar = uint;
	}

	bool SetUInt(uint64_t uint, uint32_t byte_size);

	void SetFloat(float f) {
	m_type = eTypeFloat;
	m_scalar = f;
	}

	void SetDouble(double f) {
	m_type = eTypeDouble;
	m_scalar = f;
	}

	void SetLongDouble(long double f) {
	m_type = eTypeLongDouble;
	m_scalar = f;
	}

	void SetBytes(const void *bytes, size_t length, lldb::ByteOrder byte_order);

	bool SignExtend(uint32_t sign_bitpos);

	Status SetValueFromString(const RegisterInfo *reg_info,
	llvm::StringRef value_str);
	Status SetValueFromString(const RegisterInfo *reg_info,
	const char *value_str) = delete;

	Status SetValueFromData(const RegisterInfo *reg_info, DataExtractor &data,
	lldb::offset_t offset, bool partial_data_ok);

	const void *GetBytes() const;

	lldb::ByteOrder GetByteOrder() const {
	if (m_type == eTypeBytes)
	return buffer.byte_order;
	return endian::InlHostByteOrder();
	}

	uint32_t GetByteSize() const;

	static uint32_t GetMaxByteSize() { return kMaxRegisterByteSize; }

	void Clear();

	protected:
	RegisterValue::Type m_type;
	Scalar m_scalar;

	struct {
	uint8_t bytes[kMaxRegisterByteSize]; // This must be big enough to hold any
	// register for any supported target.
	uint8_t length;
	lldb::ByteOrder byte_order;
	} buffer;
	};

	} // namespace lldb_private

	#endif // lldb_RegisterValue_h