Commit db057f7a authored by Bradley C. Kuszmaul's avatar Bradley C. Kuszmaul Committed by Yoni Fogel

Try to build a LESWITCHCALL that works with both icc on windows, and on icc...

Try to build a LESWITCHCALL that works with both icc on windows, and on icc and gcc on linux.  Addresses #1185.

git-svn-id: file:///svn/tokudb.1131b+1080a+1185+nostatementexprs@6492 c7de825b-a66e-492c-adef-691d508d4ae1
parent 1c35c70f
...@@ -79,15 +79,17 @@ static inline u_int64_t getint64 (unsigned char *p) { ...@@ -79,15 +79,17 @@ static inline u_int64_t getint64 (unsigned char *p) {
return (H<<32) + L; return (H<<32) + L;
} }
#define LESWITCHCALL(le,funname, ...) do { \ // This ugly factorization of the macro is done so that we can do ## or not depending on which version of the
switch(get_le_state(le)) { \ // compiler we are using, without repeating all this crufty offset calculation.
case LE_COMMITTED: { \
#define DO_LE_COMMITTED(funname,le) case LE_COMMITTED: { \
unsigned char* __klenaddr = 1+(unsigned char*)le; u_int32_t __klen = getint(__klenaddr); \ unsigned char* __klenaddr = 1+(unsigned char*)le; u_int32_t __klen = getint(__klenaddr); \
unsigned char* __kvaladdr = 4 + __klenaddr; \ unsigned char* __kvaladdr = 4 + __klenaddr; \
unsigned char* __clenaddr = __klen + __kvaladdr; u_int32_t __clen = getint(__clenaddr); \ unsigned char* __clenaddr = __klen + __kvaladdr; u_int32_t __clen = getint(__clenaddr); \
unsigned char* __cvaladdr = 4 + __clenaddr; \ unsigned char* __cvaladdr = 4 + __clenaddr; \
return funname ## _le_committed(__klen, __kvaladdr, __clen, __cvaladdr, __VA_ARGS__); } \ return funname ## _le_committed(__klen, __kvaladdr, __clen, __cvaladdr
case LE_BOTH: { \
#define DO_LE_BOTH(funname,le) case LE_BOTH: { \
unsigned char* __xidaddr = 1+(unsigned char*)le; u_int64_t __xid = getint64(__xidaddr); \ unsigned char* __xidaddr = 1+(unsigned char*)le; u_int64_t __xid = getint64(__xidaddr); \
unsigned char* __klenaddr = 8 + __xidaddr; u_int32_t __klen = getint(__klenaddr); \ unsigned char* __klenaddr = 8 + __xidaddr; u_int32_t __klen = getint(__klenaddr); \
unsigned char* __kvaladdr = 4 + __klenaddr; \ unsigned char* __kvaladdr = 4 + __klenaddr; \
...@@ -95,23 +97,41 @@ static inline u_int64_t getint64 (unsigned char *p) { ...@@ -95,23 +97,41 @@ static inline u_int64_t getint64 (unsigned char *p) {
unsigned char* __cvaladdr = 4 + __clenaddr; \ unsigned char* __cvaladdr = 4 + __clenaddr; \
unsigned char* __plenaddr = __clen + __cvaladdr; u_int32_t __plen = getint(__plenaddr); \ unsigned char* __plenaddr = __clen + __cvaladdr; u_int32_t __plen = getint(__plenaddr); \
unsigned char* __pvaladdr = 4 + __plenaddr; \ unsigned char* __pvaladdr = 4 + __plenaddr; \
return funname ## _le_both(__xid, __klen, __kvaladdr, __clen, __cvaladdr, __plen, __pvaladdr, __VA_ARGS__); } \ return funname ## _le_both(__xid, __klen, __kvaladdr, __clen, __cvaladdr, __plen, __pvaladdr
case LE_PROVDEL: { \
#define DO_LE_PROVDEL(funname,le ) case LE_PROVDEL: { \
unsigned char* __xidaddr = 1+(unsigned char*)le; u_int64_t __xid = getint64(__xidaddr); \ unsigned char* __xidaddr = 1+(unsigned char*)le; u_int64_t __xid = getint64(__xidaddr); \
unsigned char* __klenaddr = 8 + __xidaddr; u_int32_t __klen = getint(__klenaddr); \ unsigned char* __klenaddr = 8 + __xidaddr; u_int32_t __klen = getint(__klenaddr); \
unsigned char* __kvaladdr = 4 + __klenaddr; \ unsigned char* __kvaladdr = 4 + __klenaddr; \
unsigned char* __dlenaddr = __klen + __kvaladdr; u_int32_t __dlen = getint(__dlenaddr); \ unsigned char* __dlenaddr = __klen + __kvaladdr; u_int32_t __dlen = getint(__dlenaddr); \
unsigned char* __dvaladdr = 4 + __dlenaddr; \ unsigned char* __dvaladdr = 4 + __dlenaddr; \
return funname ## _le_provdel(__xid, __klen, __kvaladdr, __dlen, __dvaladdr, __VA_ARGS__); } \ return funname ## _le_provdel(__xid, __klen, __kvaladdr, __dlen, __dvaladdr
case LE_PROVPAIR: { \
#define DO_LE_PROVPAIR(funname,le) case LE_PROVPAIR: { \
unsigned char* __xidaddr = 1+(unsigned char*)le; u_int64_t __xid = getint64(__xidaddr); \ unsigned char* __xidaddr = 1+(unsigned char*)le; u_int64_t __xid = getint64(__xidaddr); \
unsigned char* __klenaddr = 8 + __xidaddr; u_int32_t __klen = getint(__klenaddr); \ unsigned char* __klenaddr = 8 + __xidaddr; u_int32_t __klen = getint(__klenaddr); \
unsigned char* __kvaladdr = 4 + __klenaddr; \ unsigned char* __kvaladdr = 4 + __klenaddr; \
unsigned char* __plenaddr = __klen + __kvaladdr; u_int32_t __plen = getint(__plenaddr); \ unsigned char* __plenaddr = __klen + __kvaladdr; u_int32_t __plen = getint(__plenaddr); \
unsigned char* __pvaladdr = 4 + __plenaddr; \ unsigned char* __pvaladdr = 4 + __plenaddr; \
return funname ## _le_provpair(__xid, __klen, __kvaladdr, __plen, __pvaladdr, __VA_ARGS__); } \ return funname ## _le_provpair(__xid, __klen, __kvaladdr, __plen, __pvaladdr
} abort(); } while (0)
#ifdef __ICL
#define LESWITCHCALL(le,funname, ...) do { \
switch(get_le_state(le)) { \
DO_LE_COMMITTED(funname,le) , __VA_ARGS__); } \
DO_LE_BOTH (funname,le) , __VA_ARGS__); } \
DO_LE_PROVDEL (funname,le) , __VA_ARGS__); } \
DO_LE_PROVPAIR (funname,le) , __VA_ARGS__); } \
} abort(); } while (0)
#else
#define LESWITCHCALL(le,funname, ...) do { \
switch(get_le_state(le)) { \
DO_LE_COMMITTED(funname,le) , ## __VA_ARGS__); } \
DO_LE_BOTH (funname,le) , ## __VA_ARGS__); } \
DO_LE_PROVDEL (funname,le) , ## __VA_ARGS__); } \
DO_LE_PROVPAIR (funname,le) , ## __VA_ARGS__); } \
} abort(); } while (0)
#endif
u_int32_t leafentry_memsize (LEAFENTRY le); // the size of a leafentry in memory. u_int32_t leafentry_memsize (LEAFENTRY le); // the size of a leafentry in memory.
u_int32_t leafentry_disksize (LEAFENTRY le); // this is the same as logsizeof_LEAFENTRY. The size of a leafentry on disk. u_int32_t leafentry_disksize (LEAFENTRY le); // this is the same as logsizeof_LEAFENTRY. The size of a leafentry on disk.
......
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