#ifndef __vthread_H #define __vthread_H /* * Copyright (c) 2001-2009 Stephen Williams (steve@icarus.com) * * This source code is free software; you can redistribute it * and/or modify it in source code form under the terms of the GNU * General Public License as published by the Free Software * Foundation; either version 2 of the License, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ # include "vvp_net.h" /* * A vthread is a simulation thread that executes instructions when * they are scheduled. This structure contains all the thread specific * context needed to run an instruction. * * Included in a thread are its program counter, local bits and * members needed for tracking the thread. The thread runs by fetching * instructions from code space, interpreting the instruction, then * fetching the next instruction. */ typedef struct vthread_s* vthread_t; typedef struct vvp_code_s*vvp_code_t; /* * This creates a new simulation thread, with the given start * address. The generated thread is ready to run, but is not yet * scheduled. */ extern vthread_t vthread_new(vvp_code_t sa, struct __vpiScope*scope); /* * This function marks the thread as scheduled. It is used only by the * schedule_vthread function. */ extern void vthread_mark_scheduled(vthread_t thr); /* * This function causes deletion of the currently running thread to * be delayed until after all sync events have been processed for the * time step in which the thread terminates. It is only used by the * schedule_generic function. */ extern void vthread_delay_delete(); /* * Cause this thread to execute instructions until in is put to sleep * by executing some sort of delay or wait instruction. */ extern void vthread_run(vthread_t thr); /* * This function schedules all the threads in the list to be scheduled * for execution with delay 0. The thr pointer is taken to be the head * of a list, and all the threads in the list are presumably placed in * the list by the %wait instruction. */ extern void vthread_schedule_list(vthread_t thr); extern struct __vpiScope*vthread_scope(vthread_t thr); /* * This function returns a handle to the writable context of the currently * running thread. Normally the writable context is the context allocated * to the scope associated with that thread. However, between executing a * %alloc instruction and executing the associated %fork instruction, the * writable context changes to the newly allocated context, thus allowing * the input parameters of an automatic task or function to be written to * the task/function local variables. */ extern vvp_context_t vthread_get_wt_context(); /* * This function returns a handle to the readable context of the currently * running thread. Normally the readable context is the context allocated * to the scope associated with that thread. However, between executing a * %join instruction and executing the associated %free instruction, the * readable context changes to the context allocated to the newly joined * thread, thus allowing the output parameters of an automatic task or * function to be read from the task/function local variables. */ extern vvp_context_t vthread_get_rd_context(); /* * This function returns a handle to an item in the writable context * of the currently running thread. */ extern vvp_context_item_t vthread_get_wt_context_item(unsigned context_idx); /* * This function returns a handle to an item in the readable context * of the currently running thread. */ extern vvp_context_item_t vthread_get_rd_context_item(unsigned context_idx); /* * Return a bit from the thread's bit space. These are used, for * example, when a VPI implementation function needs to access the bit * space of the thread. */ extern vvp_bit4_t vthread_get_bit(struct vthread_s*thr, unsigned addr); extern void vthread_put_bit(struct vthread_s*thr, unsigned addr, vvp_bit4_t bit); extern double vthread_get_real(struct vthread_s*thr, unsigned addr); extern void vthread_put_real(struct vthread_s*thr, unsigned addr, double val); /* This is used to actually delete a thread once we are done with it. */ extern void vthread_delete(vthread_t thr); #endif