.file "zsvjmp.s" # ZSVJMP, ZDOJMP -- Set up a jump (non-local goto) by saving the processor # registers in the buffer jmpbuf. A subsequent call to ZDOJMP restores # the registers, effecting a call in the context of the procedure which # originally called ZSVJMP, but with the new status code. These are Fortran # callable procedures. # # zsvjmp (jmp_buf, status) # (returns status) # zdojmp (jmp_buf, status) # (passes status to zsvjmp) # # These routines are directly comparable to the UNIX setjmp/longjmp, except # that they are Fortran callable kernel routines, i.e., trailing underscore, # call by reference, and no function returns. ZSVJMP requires an assembler # jacket routine to avoid modifying the call stack, but relies upon setjmp # to do the real work. ZDOJMP is implemented as a portable C routine in OS, # calling longjmp to do the restore. In these routines, JMP_BUF consists # of one longword containing the address of the STATUS variable, followed # by the "jmp_buf" used by setjmp/longjmp. # # This file contains the FreeBSD (x86) version of ZSVJMP. # Modified to remove leading underscore for ELF (Jan99). #.globl _zsvjmp_ .globl zsvjmp_ # The following has nothing to do with ZSVJMP, and is included here # only because this assembler module is loaded with every process. # This code sets the value of the symbol MEM (the VOS or Fortran Mem # common) to zero, setting the origin for IRAF pointers to zero # rather than some arbitrary value, and ensuring that the MEM common # is aligned for all datatypes as well as page aligned. A further # advantage is that references to NULL pointers are likely to cause a # memory violation. #.globl mem_ #mem_ = 0 .globl _mem_ _mem_ = 0 zsvjmp_: # %rsi ... &status %rdi ... &jumpbuf movq %rsi, (%rdi) # store &status in jmpbuf[0] movl $0, (%rsi) # zero the value of status addq $8, %rdi # change point to &jmpbuf[1] movl $0, %esi # change arg2 to zero jmp __sigsetjmp # let sigsetjmp do the rest