1//===-- llvm/CodeGen/MachineRelocation.h - Target Relocation ----*- C++ -*-===//
2//
3// The LLVM Compiler Infrastructure
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
9//
10// This file defines the MachineRelocation class.
11//
12//===----------------------------------------------------------------------===//
13
14#ifndef LLVM_CODEGEN_MACHINERELOCATION_H
15#define LLVM_CODEGEN_MACHINERELOCATION_H
16
17#include "llvm/Support/DataTypes.h"
18#include <cassert>
19
20namespace llvm {
21class GlobalValue;
22class MachineBasicBlock;
23
24/// MachineRelocation - This represents a target-specific relocation value,
25/// produced by the code emitter. This relocation is resolved after the has
26/// been emitted, either to an object file or to memory, when the target of the
27/// relocation can be resolved.
28///
29/// A relocation is made up of the following logical portions:
30/// 1. An offset in the machine code buffer, the location to modify.
31/// 2. A target specific relocation type (a number from 0 to 63).
32/// 3. A symbol being referenced, either as a GlobalValue* or as a string.
33/// 4. An optional constant value to be added to the reference.
34/// 5. A bit, CanRewrite, which indicates to the JIT that a function stub is
35/// not needed for the relocation.
36/// 6. An index into the GOT, if the target uses a GOT
37///
38class MachineRelocation {
39 enum AddressType {
40 isResult, // Relocation has be transformed into its result pointer.
41 isGV, // The Target.GV field is valid.
42 isIndirectSym, // Relocation of an indirect symbol.
43 isBB, // Relocation of BB address.
44 isExtSym, // The Target.ExtSym field is valid.
45 isConstPool, // Relocation of constant pool address.
46 isJumpTable, // Relocation of jump table address.
47 isGOTIndex // The Target.GOTIndex field is valid.
48 };
49
50 /// Offset - This is the offset from the start of the code buffer of the
51 /// relocation to perform.
52 uintptr_t Offset;
53
54 /// ConstantVal - A field that may be used by the target relocation type.
55 intptr_t ConstantVal;
56
57 union {
58 void *Result; // If this has been resolved to a resolved pointer
59 GlobalValue *GV; // If this is a pointer to a GV or an indirect ref.
| 1//===-- llvm/CodeGen/MachineRelocation.h - Target Relocation ----*- C++ -*-===//
2//
3// The LLVM Compiler Infrastructure
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
9//
10// This file defines the MachineRelocation class.
11//
12//===----------------------------------------------------------------------===//
13
14#ifndef LLVM_CODEGEN_MACHINERELOCATION_H
15#define LLVM_CODEGEN_MACHINERELOCATION_H
16
17#include "llvm/Support/DataTypes.h"
18#include <cassert>
19
20namespace llvm {
21class GlobalValue;
22class MachineBasicBlock;
23
24/// MachineRelocation - This represents a target-specific relocation value,
25/// produced by the code emitter. This relocation is resolved after the has
26/// been emitted, either to an object file or to memory, when the target of the
27/// relocation can be resolved.
28///
29/// A relocation is made up of the following logical portions:
30/// 1. An offset in the machine code buffer, the location to modify.
31/// 2. A target specific relocation type (a number from 0 to 63).
32/// 3. A symbol being referenced, either as a GlobalValue* or as a string.
33/// 4. An optional constant value to be added to the reference.
34/// 5. A bit, CanRewrite, which indicates to the JIT that a function stub is
35/// not needed for the relocation.
36/// 6. An index into the GOT, if the target uses a GOT
37///
38class MachineRelocation {
39 enum AddressType {
40 isResult, // Relocation has be transformed into its result pointer.
41 isGV, // The Target.GV field is valid.
42 isIndirectSym, // Relocation of an indirect symbol.
43 isBB, // Relocation of BB address.
44 isExtSym, // The Target.ExtSym field is valid.
45 isConstPool, // Relocation of constant pool address.
46 isJumpTable, // Relocation of jump table address.
47 isGOTIndex // The Target.GOTIndex field is valid.
48 };
49
50 /// Offset - This is the offset from the start of the code buffer of the
51 /// relocation to perform.
52 uintptr_t Offset;
53
54 /// ConstantVal - A field that may be used by the target relocation type.
55 intptr_t ConstantVal;
56
57 union {
58 void *Result; // If this has been resolved to a resolved pointer
59 GlobalValue *GV; // If this is a pointer to a GV or an indirect ref.
|
61 const char *ExtSym; // If this is a pointer to a named symbol
62 unsigned Index; // Constant pool / jump table index
63 unsigned GOTIndex; // Index in the GOT of this symbol/global
64 } Target;
65
66 unsigned TargetReloType : 6; // The target relocation ID
67 AddressType AddrType : 4; // The field of Target to use
68 bool MayNeedFarStub : 1; // True if this relocation may require a far-stub
69 bool GOTRelative : 1; // Should this relocation be relative to the GOT?
70 bool TargetResolve : 1; // True if target should resolve the address
71
72public:
73 // Relocation types used in a generic implementation. Currently, relocation
74 // entries for all things use the generic VANILLA type until they are refined
75 // into target relocation types.
76 enum RelocationType {
77 VANILLA
78 };
79
80 /// MachineRelocation::getGV - Return a relocation entry for a GlobalValue.
81 ///
82 static MachineRelocation getGV(uintptr_t offset, unsigned RelocationType,
83 GlobalValue *GV, intptr_t cst = 0,
84 bool MayNeedFarStub = 0,
85 bool GOTrelative = 0) {
86 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
87 MachineRelocation Result;
88 Result.Offset = offset;
89 Result.ConstantVal = cst;
90 Result.TargetReloType = RelocationType;
91 Result.AddrType = isGV;
92 Result.MayNeedFarStub = MayNeedFarStub;
93 Result.GOTRelative = GOTrelative;
94 Result.TargetResolve = false;
95 Result.Target.GV = GV;
96 return Result;
97 }
98
99 /// MachineRelocation::getIndirectSymbol - Return a relocation entry for an
100 /// indirect symbol.
101 static MachineRelocation getIndirectSymbol(uintptr_t offset,
102 unsigned RelocationType,
103 GlobalValue *GV, intptr_t cst = 0,
104 bool MayNeedFarStub = 0,
105 bool GOTrelative = 0) {
106 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
107 MachineRelocation Result;
108 Result.Offset = offset;
109 Result.ConstantVal = cst;
110 Result.TargetReloType = RelocationType;
111 Result.AddrType = isIndirectSym;
112 Result.MayNeedFarStub = MayNeedFarStub;
113 Result.GOTRelative = GOTrelative;
114 Result.TargetResolve = false;
115 Result.Target.GV = GV;
116 return Result;
117 }
118
119 /// MachineRelocation::getBB - Return a relocation entry for a BB.
120 ///
121 static MachineRelocation getBB(uintptr_t offset,unsigned RelocationType,
122 MachineBasicBlock *MBB, intptr_t cst = 0) {
123 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
124 MachineRelocation Result;
125 Result.Offset = offset;
126 Result.ConstantVal = cst;
127 Result.TargetReloType = RelocationType;
128 Result.AddrType = isBB;
129 Result.MayNeedFarStub = false;
130 Result.GOTRelative = false;
131 Result.TargetResolve = false;
132 Result.Target.MBB = MBB;
133 return Result;
134 }
135
136 /// MachineRelocation::getExtSym - Return a relocation entry for an external
137 /// symbol, like "free".
138 ///
139 static MachineRelocation getExtSym(uintptr_t offset, unsigned RelocationType,
140 const char *ES, intptr_t cst = 0,
141 bool GOTrelative = 0,
142 bool NeedStub = true) {
143 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
144 MachineRelocation Result;
145 Result.Offset = offset;
146 Result.ConstantVal = cst;
147 Result.TargetReloType = RelocationType;
148 Result.AddrType = isExtSym;
149 Result.MayNeedFarStub = NeedStub;
150 Result.GOTRelative = GOTrelative;
151 Result.TargetResolve = false;
152 Result.Target.ExtSym = ES;
153 return Result;
154 }
155
156 /// MachineRelocation::getConstPool - Return a relocation entry for a constant
157 /// pool entry.
158 ///
159 static MachineRelocation getConstPool(uintptr_t offset,unsigned RelocationType,
160 unsigned CPI, intptr_t cst = 0,
161 bool letTargetResolve = false) {
162 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
163 MachineRelocation Result;
164 Result.Offset = offset;
165 Result.ConstantVal = cst;
166 Result.TargetReloType = RelocationType;
167 Result.AddrType = isConstPool;
168 Result.MayNeedFarStub = false;
169 Result.GOTRelative = false;
170 Result.TargetResolve = letTargetResolve;
171 Result.Target.Index = CPI;
172 return Result;
173 }
174
175 /// MachineRelocation::getJumpTable - Return a relocation entry for a jump
176 /// table entry.
177 ///
178 static MachineRelocation getJumpTable(uintptr_t offset,unsigned RelocationType,
179 unsigned JTI, intptr_t cst = 0,
180 bool letTargetResolve = false) {
181 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
182 MachineRelocation Result;
183 Result.Offset = offset;
184 Result.ConstantVal = cst;
185 Result.TargetReloType = RelocationType;
186 Result.AddrType = isJumpTable;
187 Result.MayNeedFarStub = false;
188 Result.GOTRelative = false;
189 Result.TargetResolve = letTargetResolve;
190 Result.Target.Index = JTI;
191 return Result;
192 }
193
194 /// getMachineCodeOffset - Return the offset into the code buffer that the
195 /// relocation should be performed.
196 intptr_t getMachineCodeOffset() const {
197 return Offset;
198 }
199
200 /// getRelocationType - Return the target-specific relocation ID for this
201 /// relocation.
202 unsigned getRelocationType() const {
203 return TargetReloType;
204 }
205
206 /// getConstantVal - Get the constant value associated with this relocation.
207 /// This is often an offset from the symbol.
208 ///
209 intptr_t getConstantVal() const {
210 return ConstantVal;
211 }
212
213 /// setConstantVal - Set the constant value associated with this relocation.
214 /// This is often an offset from the symbol.
215 ///
216 void setConstantVal(intptr_t val) {
217 ConstantVal = val;
218 }
219
220 /// isGlobalValue - Return true if this relocation is a GlobalValue, as
221 /// opposed to a constant string.
222 bool isGlobalValue() const {
223 return AddrType == isGV;
224 }
225
226 /// isIndirectSymbol - Return true if this relocation is the address an
227 /// indirect symbol
228 bool isIndirectSymbol() const {
229 return AddrType == isIndirectSym;
230 }
231
232 /// isBasicBlock - Return true if this relocation is a basic block reference.
233 ///
234 bool isBasicBlock() const {
235 return AddrType == isBB;
236 }
237
238 /// isExternalSymbol - Return true if this is a constant string.
239 ///
240 bool isExternalSymbol() const {
241 return AddrType == isExtSym;
242 }
243
244 /// isConstantPoolIndex - Return true if this is a constant pool reference.
245 ///
246 bool isConstantPoolIndex() const {
247 return AddrType == isConstPool;
248 }
249
250 /// isJumpTableIndex - Return true if this is a jump table reference.
251 ///
252 bool isJumpTableIndex() const {
253 return AddrType == isJumpTable;
254 }
255
256 /// isGOTRelative - Return true the target wants the index into the GOT of
257 /// the symbol rather than the address of the symbol.
258 bool isGOTRelative() const {
259 return GOTRelative;
260 }
261
262 /// mayNeedFarStub - This function returns true if the JIT for this target may
263 /// need either a stub function or an indirect global-variable load to handle
264 /// the relocated GlobalValue reference. For example, the x86-64 call
265 /// instruction can only call functions within +/-2GB of the call site.
266 /// Anything farther away needs a longer mov+call sequence, which can't just
267 /// be written on top of the existing call.
268 bool mayNeedFarStub() const {
269 return MayNeedFarStub;
270 }
271
272 /// letTargetResolve - Return true if the target JITInfo is usually
273 /// responsible for resolving the address of this relocation.
274 bool letTargetResolve() const {
275 return TargetResolve;
276 }
277
278 /// getGlobalValue - If this is a global value reference, return the
279 /// referenced global.
280 GlobalValue *getGlobalValue() const {
281 assert((isGlobalValue() || isIndirectSymbol()) &&
282 "This is not a global value reference!");
283 return Target.GV;
284 }
285
286 MachineBasicBlock *getBasicBlock() const {
287 assert(isBasicBlock() && "This is not a basic block reference!");
288 return Target.MBB;
289 }
290
291 /// getString - If this is a string value, return the string reference.
292 ///
293 const char *getExternalSymbol() const {
294 assert(isExternalSymbol() && "This is not an external symbol reference!");
295 return Target.ExtSym;
296 }
297
298 /// getConstantPoolIndex - If this is a const pool reference, return
299 /// the index into the constant pool.
300 unsigned getConstantPoolIndex() const {
301 assert(isConstantPoolIndex() && "This is not a constant pool reference!");
302 return Target.Index;
303 }
304
305 /// getJumpTableIndex - If this is a jump table reference, return
306 /// the index into the jump table.
307 unsigned getJumpTableIndex() const {
308 assert(isJumpTableIndex() && "This is not a jump table reference!");
309 return Target.Index;
310 }
311
312 /// getResultPointer - Once this has been resolved to point to an actual
313 /// address, this returns the pointer.
314 void *getResultPointer() const {
315 assert(AddrType == isResult && "Result pointer isn't set yet!");
316 return Target.Result;
317 }
318
319 /// setResultPointer - Set the result to the specified pointer value.
320 ///
321 void setResultPointer(void *Ptr) {
322 Target.Result = Ptr;
323 AddrType = isResult;
324 }
325
326 /// setGOTIndex - Set the GOT index to a specific value.
327 void setGOTIndex(unsigned idx) {
328 AddrType = isGOTIndex;
329 Target.GOTIndex = idx;
330 }
331
332 /// getGOTIndex - Once this has been resolved to an entry in the GOT,
333 /// this returns that index. The index is from the lowest address entry
334 /// in the GOT.
335 unsigned getGOTIndex() const {
336 assert(AddrType == isGOTIndex);
337 return Target.GOTIndex;
338 }
339};
340}
341
342#endif
| 61 const char *ExtSym; // If this is a pointer to a named symbol
62 unsigned Index; // Constant pool / jump table index
63 unsigned GOTIndex; // Index in the GOT of this symbol/global
64 } Target;
65
66 unsigned TargetReloType : 6; // The target relocation ID
67 AddressType AddrType : 4; // The field of Target to use
68 bool MayNeedFarStub : 1; // True if this relocation may require a far-stub
69 bool GOTRelative : 1; // Should this relocation be relative to the GOT?
70 bool TargetResolve : 1; // True if target should resolve the address
71
72public:
73 // Relocation types used in a generic implementation. Currently, relocation
74 // entries for all things use the generic VANILLA type until they are refined
75 // into target relocation types.
76 enum RelocationType {
77 VANILLA
78 };
79
80 /// MachineRelocation::getGV - Return a relocation entry for a GlobalValue.
81 ///
82 static MachineRelocation getGV(uintptr_t offset, unsigned RelocationType,
83 GlobalValue *GV, intptr_t cst = 0,
84 bool MayNeedFarStub = 0,
85 bool GOTrelative = 0) {
86 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
87 MachineRelocation Result;
88 Result.Offset = offset;
89 Result.ConstantVal = cst;
90 Result.TargetReloType = RelocationType;
91 Result.AddrType = isGV;
92 Result.MayNeedFarStub = MayNeedFarStub;
93 Result.GOTRelative = GOTrelative;
94 Result.TargetResolve = false;
95 Result.Target.GV = GV;
96 return Result;
97 }
98
99 /// MachineRelocation::getIndirectSymbol - Return a relocation entry for an
100 /// indirect symbol.
101 static MachineRelocation getIndirectSymbol(uintptr_t offset,
102 unsigned RelocationType,
103 GlobalValue *GV, intptr_t cst = 0,
104 bool MayNeedFarStub = 0,
105 bool GOTrelative = 0) {
106 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
107 MachineRelocation Result;
108 Result.Offset = offset;
109 Result.ConstantVal = cst;
110 Result.TargetReloType = RelocationType;
111 Result.AddrType = isIndirectSym;
112 Result.MayNeedFarStub = MayNeedFarStub;
113 Result.GOTRelative = GOTrelative;
114 Result.TargetResolve = false;
115 Result.Target.GV = GV;
116 return Result;
117 }
118
119 /// MachineRelocation::getBB - Return a relocation entry for a BB.
120 ///
121 static MachineRelocation getBB(uintptr_t offset,unsigned RelocationType,
122 MachineBasicBlock *MBB, intptr_t cst = 0) {
123 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
124 MachineRelocation Result;
125 Result.Offset = offset;
126 Result.ConstantVal = cst;
127 Result.TargetReloType = RelocationType;
128 Result.AddrType = isBB;
129 Result.MayNeedFarStub = false;
130 Result.GOTRelative = false;
131 Result.TargetResolve = false;
132 Result.Target.MBB = MBB;
133 return Result;
134 }
135
136 /// MachineRelocation::getExtSym - Return a relocation entry for an external
137 /// symbol, like "free".
138 ///
139 static MachineRelocation getExtSym(uintptr_t offset, unsigned RelocationType,
140 const char *ES, intptr_t cst = 0,
141 bool GOTrelative = 0,
142 bool NeedStub = true) {
143 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
144 MachineRelocation Result;
145 Result.Offset = offset;
146 Result.ConstantVal = cst;
147 Result.TargetReloType = RelocationType;
148 Result.AddrType = isExtSym;
149 Result.MayNeedFarStub = NeedStub;
150 Result.GOTRelative = GOTrelative;
151 Result.TargetResolve = false;
152 Result.Target.ExtSym = ES;
153 return Result;
154 }
155
156 /// MachineRelocation::getConstPool - Return a relocation entry for a constant
157 /// pool entry.
158 ///
159 static MachineRelocation getConstPool(uintptr_t offset,unsigned RelocationType,
160 unsigned CPI, intptr_t cst = 0,
161 bool letTargetResolve = false) {
162 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
163 MachineRelocation Result;
164 Result.Offset = offset;
165 Result.ConstantVal = cst;
166 Result.TargetReloType = RelocationType;
167 Result.AddrType = isConstPool;
168 Result.MayNeedFarStub = false;
169 Result.GOTRelative = false;
170 Result.TargetResolve = letTargetResolve;
171 Result.Target.Index = CPI;
172 return Result;
173 }
174
175 /// MachineRelocation::getJumpTable - Return a relocation entry for a jump
176 /// table entry.
177 ///
178 static MachineRelocation getJumpTable(uintptr_t offset,unsigned RelocationType,
179 unsigned JTI, intptr_t cst = 0,
180 bool letTargetResolve = false) {
181 assert((RelocationType & ~63) == 0 && "Relocation type too large!");
182 MachineRelocation Result;
183 Result.Offset = offset;
184 Result.ConstantVal = cst;
185 Result.TargetReloType = RelocationType;
186 Result.AddrType = isJumpTable;
187 Result.MayNeedFarStub = false;
188 Result.GOTRelative = false;
189 Result.TargetResolve = letTargetResolve;
190 Result.Target.Index = JTI;
191 return Result;
192 }
193
194 /// getMachineCodeOffset - Return the offset into the code buffer that the
195 /// relocation should be performed.
196 intptr_t getMachineCodeOffset() const {
197 return Offset;
198 }
199
200 /// getRelocationType - Return the target-specific relocation ID for this
201 /// relocation.
202 unsigned getRelocationType() const {
203 return TargetReloType;
204 }
205
206 /// getConstantVal - Get the constant value associated with this relocation.
207 /// This is often an offset from the symbol.
208 ///
209 intptr_t getConstantVal() const {
210 return ConstantVal;
211 }
212
213 /// setConstantVal - Set the constant value associated with this relocation.
214 /// This is often an offset from the symbol.
215 ///
216 void setConstantVal(intptr_t val) {
217 ConstantVal = val;
218 }
219
220 /// isGlobalValue - Return true if this relocation is a GlobalValue, as
221 /// opposed to a constant string.
222 bool isGlobalValue() const {
223 return AddrType == isGV;
224 }
225
226 /// isIndirectSymbol - Return true if this relocation is the address an
227 /// indirect symbol
228 bool isIndirectSymbol() const {
229 return AddrType == isIndirectSym;
230 }
231
232 /// isBasicBlock - Return true if this relocation is a basic block reference.
233 ///
234 bool isBasicBlock() const {
235 return AddrType == isBB;
236 }
237
238 /// isExternalSymbol - Return true if this is a constant string.
239 ///
240 bool isExternalSymbol() const {
241 return AddrType == isExtSym;
242 }
243
244 /// isConstantPoolIndex - Return true if this is a constant pool reference.
245 ///
246 bool isConstantPoolIndex() const {
247 return AddrType == isConstPool;
248 }
249
250 /// isJumpTableIndex - Return true if this is a jump table reference.
251 ///
252 bool isJumpTableIndex() const {
253 return AddrType == isJumpTable;
254 }
255
256 /// isGOTRelative - Return true the target wants the index into the GOT of
257 /// the symbol rather than the address of the symbol.
258 bool isGOTRelative() const {
259 return GOTRelative;
260 }
261
262 /// mayNeedFarStub - This function returns true if the JIT for this target may
263 /// need either a stub function or an indirect global-variable load to handle
264 /// the relocated GlobalValue reference. For example, the x86-64 call
265 /// instruction can only call functions within +/-2GB of the call site.
266 /// Anything farther away needs a longer mov+call sequence, which can't just
267 /// be written on top of the existing call.
268 bool mayNeedFarStub() const {
269 return MayNeedFarStub;
270 }
271
272 /// letTargetResolve - Return true if the target JITInfo is usually
273 /// responsible for resolving the address of this relocation.
274 bool letTargetResolve() const {
275 return TargetResolve;
276 }
277
278 /// getGlobalValue - If this is a global value reference, return the
279 /// referenced global.
280 GlobalValue *getGlobalValue() const {
281 assert((isGlobalValue() || isIndirectSymbol()) &&
282 "This is not a global value reference!");
283 return Target.GV;
284 }
285
286 MachineBasicBlock *getBasicBlock() const {
287 assert(isBasicBlock() && "This is not a basic block reference!");
288 return Target.MBB;
289 }
290
291 /// getString - If this is a string value, return the string reference.
292 ///
293 const char *getExternalSymbol() const {
294 assert(isExternalSymbol() && "This is not an external symbol reference!");
295 return Target.ExtSym;
296 }
297
298 /// getConstantPoolIndex - If this is a const pool reference, return
299 /// the index into the constant pool.
300 unsigned getConstantPoolIndex() const {
301 assert(isConstantPoolIndex() && "This is not a constant pool reference!");
302 return Target.Index;
303 }
304
305 /// getJumpTableIndex - If this is a jump table reference, return
306 /// the index into the jump table.
307 unsigned getJumpTableIndex() const {
308 assert(isJumpTableIndex() && "This is not a jump table reference!");
309 return Target.Index;
310 }
311
312 /// getResultPointer - Once this has been resolved to point to an actual
313 /// address, this returns the pointer.
314 void *getResultPointer() const {
315 assert(AddrType == isResult && "Result pointer isn't set yet!");
316 return Target.Result;
317 }
318
319 /// setResultPointer - Set the result to the specified pointer value.
320 ///
321 void setResultPointer(void *Ptr) {
322 Target.Result = Ptr;
323 AddrType = isResult;
324 }
325
326 /// setGOTIndex - Set the GOT index to a specific value.
327 void setGOTIndex(unsigned idx) {
328 AddrType = isGOTIndex;
329 Target.GOTIndex = idx;
330 }
331
332 /// getGOTIndex - Once this has been resolved to an entry in the GOT,
333 /// this returns that index. The index is from the lowest address entry
334 /// in the GOT.
335 unsigned getGOTIndex() const {
336 assert(AddrType == isGOTIndex);
337 return Target.GOTIndex;
338 }
339};
340}
341
342#endif
|