#include <thread.h> int thr_create(void *stack_base, size_t stack_size, void *(*start_routine) (void *), void *arg, long flags, thread_t *new_thread); size_t thr_min_stack(void);
stack_size--Contains the size, in number of bytes, for the stack that the new thread uses. If stack_size is zero, a default size is used. In most cases, a zero value works best. If stack_size is not zero, it must be greater than the value returned by thr_min_stack().
There is no general need to allocate stack space for threads. The threads library allocates 1 Mbyte of virtual memory for each thread's stack with no swap space reserved. (The library uses the -MAP_NORESERVE option of mmap(2) to make the allocations.)
start_routine--Contains the function with which the new thread begins execution. When start_routine() returns, the thread exits with the exit status set to the value returned by start_routine (see "thr_exit(3THR)").
arg--Can be anything that is described by void, which is typically any 4-byte value. Anything larger must be passed indirectly by having the argument point to it.
Note that you can supply only one argument. To get your procedure to take multiple arguments, encode them as one (such as by putting them in a structure).
The value in flags is constructed from the bitwise inclusive OR of the following:
THR_SUSPENDED--Suspends the new thread and does not execute start_routine until the thread is started by thr_continue(). Use this to operate on the thread (such as changing its priority) before you run it. The termination of a detached thread is ignored.
THR_NEW_LWP--Increases the concurrency level for unbound threads by one. The effect is similar to incrementing concurrency by one with thr_setconcurrency(3T), although THR_NEW_LWP does not affect the level set through the thr_setconcurrency() function. Typically, THR_NEW_LWP adds a new LWP to the pool of LWPs running unbound threads.
THR_DAEMON--Marks the new thread as a daemon. The process exits when all nondaemon threads exit. Daemon threads do not affect the process exit status and are ignored when counting the number of thread exits.
A process can exit either by calling exit() or by having every thread in the process that was not created with the THR_DAEMON flag call thr_exit(3T). An application, or a library it calls, can create one or more threads that should be ignored (not counted) in the decision of whether to exit. The THR_DAEMON flag identifies threads that are not counted in the process exit criterion.
new_thread--Points to a location (when new_thread is not NULL) where the ID of the new thread is stored when thr_create() is successful. The caller is responsible for supplying the storage this argument points to. The ID is valid only within the calling process.
If you are not interested in this identifier, supply a zero value to new_thread.
Returns a zero and exits when it completes successfully. Any other returned value indicates that an error occurred. When any of the following conditions is detected, thr_create() fails and returns the corresponding value.
Stack behavior in Solaris threads is generally the same as that in pthreads. For more information about stack setup and operation, see "About Stacks".
You can get the absolute minimum on stack size by calling thr_min_stack(), which returns the amount of stack space required for a thread that executes a null procedure. Useful threads need more than this, so be very careful when reducing the stack size.
You can specify a custom stack in two ways. The first is to supply a NULL for the stack location, thereby asking the runtime library to allocate the space for the stack, but to supply the desired size in the stacksize parameter to thr_create().
The other approach is to take overall aspects of stack management and supply a pointer to the stack to thr_create(). This means that you are responsible not only for stack allocation but also for stack deallocation--when the thread terminates, you must arrange for the disposal of its stack.