#! /usr/bin/env python ############################################################################### # # simulavr - A simulator for the Atmel AVR family of microcontrollers. # Copyright (C) 2001, 2002 Theodore A. Roth # # This program is free software; you can redistribute it and/or modify # it 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 # ############################################################################### # # $Id: test_MUL.py,v 0.5 josef # """Test the MUL opcode. """ import base_test from registers import Reg, SREG class MUL_TestFail(base_test.TestFail): pass class base_MUL(base_test.opcode_test): """Generic test case for testing MUL opcode. description: multiply two unsigned numbers and save the result in R1:R0 (highb:lowbyte) opcode: 1001 11rd dddd rrrr changes: R1,R0,SREG: C set if R15 set, Z set if result 0x0000 """ def setup(self): # Set SREG to zero or only C flag set self.setup_regs[Reg.SREG] = 0x0 # Set the register values self.setup_regs[self.Rd] = self.Vd self.setup_regs[self.Rr] = self.Vr # Return the raw opcode return 0x9C00 | (self.Rr & 0x0f) | (self.Rd & 0x1f) << 4 | (self.Rr & 0x10) << 5 def analyze_results(self): self.reg_changed.extend( [Reg.R00,Reg.R01, Reg.SREG] ) # check that result is correct res = (self.Vd * self.Vr) expect = res & 0xffff got = self.anal_regs[Reg.R00] | self.anal_regs[Reg.R01] << 8 if expect != got: self.fail('MUL calc r%02d, r%02d: 0x%02x * 0x%02x = (expect=%d, got=%d)' % ( self.Rd, self.Rr, self.Vd, self.Vr, expect, got)) expect_sreg = 0 # calculate what we expect sreg to be C = (expect & 0x8000) >> 15 expect_sreg += (expect == 0) << SREG.Z expect_sreg += C << SREG.C got_sreg = self.anal_regs[Reg.SREG] if expect_sreg != got_sreg: self.fail('MUL flag setting: 0x%d * 0x%d -> SREG (expect=%02x, got=%02x)' % ( self.Vd, self.Vr, expect_sreg, got_sreg)) # # Template code for test case. # The fail method will raise a test specific exception. # template = """ class MUL_rd%02d_vd%02x_rr%02d_vr%02xTestFail(MUL_TestFail): pass class test_MUL_rd%02d_vd%02x_rr%02d_vr%02x(base_MUL): Rd = %d Vd = 0x%x Rr = %d Vr = 0x%x def fail(self,s): raise MUL_rd%02d_vd%02x_rr%02d_vr%02xTestFail, s """ # # Define a list of test values such that we all the cases of SREG bits being set. # vals = ( ( 0x00, 0x00 ), ( 0x01, 0x00 ), ( 0x00, 0x4d ), ( 0xff, 0xff ), ( 0xff, 0x4d ), ( 0x01, 0xff ), ) # # automagically generate the test_MUL_rdNN_vdXX_rrNN_vrXX class definitions. # For these, we don't want Rd=Rr as that is a special case handled below. # code = '' step = 8 for d in range(0,32,step): for r in range(1,32,8): for vd,vr in vals: args = (d,vd,r,vr)*4 code += template % args # # This is a special case (Rd == Rr) make sure that Vd == Vr. # for d in range(0,32,step): for vd,vr in vals: args = (d, vd, d, vd)*4 code += template % args exec code