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[/] [tv80/] [trunk/] [scripts/] [rgen.py] - Rev 110

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#!/usr/bin/env python
# Copyright (c) 2004 Guy Hutchison (ghutchis@opencores.org)
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
# IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
# CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
# TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
# SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 
# This script generates I/O mapped control and status registers based
# on an XML configuration file.
# 
 
import reglib
import xml.dom.minidom
import sys, os, re, string
 
def node_info (node):
    print "Methods:",dir(node)
    print "Child Nodes:",node.childNodes
 
def create_addr_vh (filename, dg):
    fh = open (filename, 'w')
    for d in dg.ranges:
        print repr(d)
        ba = d.get_base_addr()
        fh.write ("`define %s 'h%x\n" % (d.name.upper(), ba))
    fh.close()
 
def create_addr_decoder (node):
    rg = reglib.decoder_group()
 
    rg.name = node.getAttribute ("name")
    rg.addr_size = reglib.number(node.getAttribute ("addr_sz"))
 
    data_sz = node.getAttribute ("data_sz")
    if (data_sz != ''):
        rg.data_size = reglib.number(data_sz)
 
    return rg
 
def create_decoder_verilog (top_node):
    dg = create_addr_decoder (top_node)
 
    # get list of address ranges
    range_nodes = top_node.getElementsByTagName ("range")
    for rn in range_nodes:
        prefix = rn.getAttribute ("prefix")
        base = reglib.number(rn.getAttribute ("base"))
        bits = int(rn.getAttribute ("bits"))
        r = reglib.decoder_range (prefix, base, bits)
        dg.add_range (r)
 
    fname = dg.name + ".v"
    fh = open (fname, 'w')
    fh.write (dg.verilog())
    fh.close()
    create_addr_vh (dg.name + ".vh", dg)
 
def create_reg_group (node):
    rg = reglib.register_group()
 
    rg.name = node.getAttribute ("name")
    rg.addr_size = reglib.number(node.getAttribute ("addr_sz"))
    rg.base_addr = reglib.number(node.getAttribute ("base_addr"))
 
    data_sz = node.getAttribute ("data_sz")
    if (data_sz != ''):
        rg.data_size = reglib.number(data_sz)
 
    rread = node.getAttribute ("registered_read")
    if (data_sz != ''):
        rg.registered_read = reglib.number(rread)
 
    return rg
 
def create_register (rg, node):
    params = {}
    params['name'] = node.getAttribute ("name")
    type = node.getAttribute ("type")
    width = node.getAttribute ("width")
    if (width == ''): params['width'] = 1
    else : params['width'] = int(width)
    params['default'] = node.getAttribute ("default")
    params['int_value'] = node.getAttribute ("int_value")
 
    # May switch to this code later for a more general implementation
    #for anode in node.childNodes:
    #    if anode.nodeType = anode.ATTRIBUTE_NODE:
    #        params[anode.nodeName] = anode.nodeValue
 
    print "Reg:",params['name'], " width:",params['width']
    fld_nodes = node.getElementsByTagName ("field")
    fld_list = []
    cum_width = 0
    cum_default = 0L
    if (len(fld_nodes) != 0):
        for fld in fld_nodes:
            wstr = fld.getAttribute ("width")
            if wstr == '':
                width = 1
            else:
                width = int(wstr)
            fld_list.append (reglib.net('wire',fld.getAttribute("name"),width))
 
            default = fld.getAttribute ("default")
            if default == '':
                default = 0
            else:
                default = long(reglib.number (default))
            cum_default = cum_default | (default << cum_width)
            print "Fld: %20s CD: %x CW: %d D: %x" % (fld.getAttribute("name"),cum_default, cum_width, default)
            cum_width += width
 
        params['width'] = cum_width
        params['default'] = cum_default
        fld_list.reverse()
    else:
        if params['default'] == '': params['default'] = 0
        else: params['default'] = reglib.number (params['default'])
 
    if type == '': type = 'config'
 
    rg.add_register (type, params)
    rg.registers[-1].fields = fld_list
 
def create_verilog (top_node):
    rg = create_reg_group (top_node)
 
    # get list of register nodes
    reg_nodes = top_node.getElementsByTagName ("register")
 
    for r in reg_nodes:
        create_register (rg, r)
 
    fname = rg.name + ".v"
    fh = open (fname, 'w')
    fh.write (rg.verilog())
    fh.close()
 
    create_map (rg)
    create_vh (rg)
 
def create_vh (rg):
    fname = rg.name + ".vh"
    fh = open (fname, 'w')
    for r in rg.registers:
        fh.write ("`define %s 16'h%04x\n" % (string.upper(r.name), rg.base_addr+r.offset))
    fh.close()
 
def create_map (rg):
    fname = rg.name + ".h"
    fh = open (fname, 'w')
 
    for r in rg.registers:
         fh.write ("#define %s 0x%x\n" % (string.upper(r.name),r.offset))
 
    #for r in rg.registers:
    #    fh.write ("sfr at 0x%02x %s;\n" % (r.offset, r.name))
    fh.close()
 
def parse_file (filename):
    rdoc = xml.dom.minidom.parse (filename)
    blk_list = rdoc.getElementsByTagName ("tv_registers")
 
    for blk in blk_list:
        create_verilog (blk)
 
    dec_list = rdoc.getElementsByTagName ("it_decoder")
 
    for dec in dec_list:
        create_decoder_verilog (dec)
 
    rdoc.unlink()
 
def check_version():
    version = float (sys.version[0:3])
    if (version < 2.3):
        print "rgen requires at least Python 2.3 to function correctly"
        sys.exit (1)
 
check_version()
if (len (sys.argv) > 1):
    parse_file (sys.argv[1])
else:
    print "Usage: %s <filename>" % os.path.basename (sys.argv[0])
 
 

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