Fri, 03 Dec 2010 01:34:31 -0800
6961690: load oops from constant table on SPARC
Summary: oops should be loaded from the constant table of an nmethod instead of materializing them with a long code sequence.
Reviewed-by: never, kvn
1 /*
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13 * accompanied this code).
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23 */
25 #ifndef SHARE_VM_ASM_REGISTER_HPP
26 #define SHARE_VM_ASM_REGISTER_HPP
28 #include "utilities/top.hpp"
30 // Use AbstractRegister as shortcut
31 class AbstractRegisterImpl;
32 typedef AbstractRegisterImpl* AbstractRegister;
35 // The super class for platform specific registers. Instead of using value objects,
36 // registers are implemented as pointers. Subclassing is used so all registers can
37 // use the debugging suport below. No virtual functions are used for efficiency.
38 // They are canonicalized; i.e., registers are equal if their pointers are equal,
39 // and vice versa. A concrete implementation may just map the register onto 'this'.
41 class AbstractRegisterImpl {
42 protected:
43 int value() const { return (int)(intx)this; }
44 };
47 //
48 // Macros for use in defining Register instances. We'd like to be
49 // able to simply define const instances of the RegisterImpl* for each
50 // of the registers needed on a system in a header file. However many
51 // compilers don't handle this very well and end up producing a
52 // private definition in every file which includes the header file.
53 // Along with the static constructors necessary for initialization it
54 // can consume a significant amount of space in the result library.
55 //
56 // The following macros allow us to declare the instance in a .hpp and
57 // produce an enumeration value which has the same number. Then in a
58 // .cpp the the register instance can be defined using the enumeration
59 // value. This avoids the use of static constructors and multiple
60 // definitions per .cpp. In addition #defines for the register can be
61 // produced so that the constant registers can be inlined. These
62 // macros should not be used inside other macros, because you may get
63 // multiple evaluations of the macros which can give bad results.
64 //
65 // Here are some example uses and expansions. Note that the macro
66 // invocation is terminated with a ;.
67 //
68 // CONSTANT_REGISTER_DECLARATION(Register, G0, 0);
69 //
70 // extern const Register G0 ;
71 // enum { G0_RegisterEnumValue = 0 } ;
72 //
73 // REGISTER_DECLARATION(Register, Gmethod, G5);
74 //
75 // extern const Register Gmethod ;
76 // enum { Gmethod_RegisterEnumValue = G5_RegisterEnumValue } ;
77 //
78 // REGISTER_DEFINITION(Register, G0);
79 //
80 // const Register G0 = ( ( Register ) G0_RegisterEnumValue ) ;
81 //
83 #define AS_REGISTER(type,name) ((type)name##_##type##EnumValue)
85 #define CONSTANT_REGISTER_DECLARATION(type, name, value) \
86 extern const type name; \
87 enum { name##_##type##EnumValue = (value) }
89 #define REGISTER_DECLARATION(type, name, value) \
90 extern const type name; \
91 enum { name##_##type##EnumValue = value##_##type##EnumValue }
93 #define REGISTER_DEFINITION(type, name) \
94 const type name = ((type)name##_##type##EnumValue)
98 // Debugging support
100 inline void assert_different_registers(
101 AbstractRegister a,
102 AbstractRegister b
103 ) {
104 assert(
105 a != b,
106 "registers must be different"
107 );
108 }
111 inline void assert_different_registers(
112 AbstractRegister a,
113 AbstractRegister b,
114 AbstractRegister c
115 ) {
116 assert(
117 a != b && a != c
118 && b != c,
119 "registers must be different"
120 );
121 }
124 inline void assert_different_registers(
125 AbstractRegister a,
126 AbstractRegister b,
127 AbstractRegister c,
128 AbstractRegister d
129 ) {
130 assert(
131 a != b && a != c && a != d
132 && b != c && b != d
133 && c != d,
134 "registers must be different"
135 );
136 }
139 inline void assert_different_registers(
140 AbstractRegister a,
141 AbstractRegister b,
142 AbstractRegister c,
143 AbstractRegister d,
144 AbstractRegister e
145 ) {
146 assert(
147 a != b && a != c && a != d && a != e
148 && b != c && b != d && b != e
149 && c != d && c != e
150 && d != e,
151 "registers must be different"
152 );
153 }
156 inline void assert_different_registers(
157 AbstractRegister a,
158 AbstractRegister b,
159 AbstractRegister c,
160 AbstractRegister d,
161 AbstractRegister e,
162 AbstractRegister f
163 ) {
164 assert(
165 a != b && a != c && a != d && a != e && a != f
166 && b != c && b != d && b != e && b != f
167 && c != d && c != e && c != f
168 && d != e && d != f
169 && e != f,
170 "registers must be different"
171 );
172 }
175 inline void assert_different_registers(
176 AbstractRegister a,
177 AbstractRegister b,
178 AbstractRegister c,
179 AbstractRegister d,
180 AbstractRegister e,
181 AbstractRegister f,
182 AbstractRegister g
183 ) {
184 assert(
185 a != b && a != c && a != d && a != e && a != f && a != g
186 && b != c && b != d && b != e && b != f && b != g
187 && c != d && c != e && c != f && c != g
188 && d != e && d != f && d != g
189 && e != f && e != g
190 && f != g,
191 "registers must be different"
192 );
193 }
196 inline void assert_different_registers(
197 AbstractRegister a,
198 AbstractRegister b,
199 AbstractRegister c,
200 AbstractRegister d,
201 AbstractRegister e,
202 AbstractRegister f,
203 AbstractRegister g,
204 AbstractRegister h
205 ) {
206 assert(
207 a != b && a != c && a != d && a != e && a != f && a != g && a != h
208 && b != c && b != d && b != e && b != f && b != g && b != h
209 && c != d && c != e && c != f && c != g && c != h
210 && d != e && d != f && d != g && d != h
211 && e != f && e != g && e != h
212 && f != g && f != h
213 && g != h,
214 "registers must be different"
215 );
216 }
218 #endif // SHARE_VM_ASM_REGISTER_HPP