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/* mc_common.c -- Memory Controller testbenck common routines
         Copyright (C) 2001 by Ivan Guzvinec, ivang@opencores.org
 
         This file is part of OpenRISC 1000 Architectural Simulator.
 
         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., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
 
#include "support.h"
#include "mc_common.h"
 
static int r_Xn;
static int r_mod;
 
void randomin(unsigned long seed)
{
  r_Xn = seed;
  r_mod = 33554431; /* 2^25 - 1*/
}
 
unsigned long random(unsigned long max)
{
  r_Xn = ((r_Xn * (r_Xn + 1))%r_mod);
  if (r_Xn == 0) r_Xn = 42+1;
  return r_Xn%max;
}
 
void mc_clear_row(unsigned long nFrom, unsigned long nTo)
{
  MEMLOC32 mem32 = 0;
  unsigned long i;
 
  for(i=nFrom; i<nTo; i+=4) {
    mem32  = (unsigned long*)i;
    *mem32 = 0UL;
  }
}
 
unsigned long mc_test_row_8(int run, int seq, unsigned long nFrom, unsigned long nTo)
{
    MEMLOC8  mem8  = 0;
    MEMLOC16 mem16 = 0;
    MEMLOC32 mem32 = 0;
 
    unsigned char pattern    = 0;
    unsigned short pattern16 = 0;
    unsigned long pattern32  = 0;
    unsigned char read;
    unsigned short read16;
    unsigned long read32;
    int inc = 0;
 
    unsigned long i;
 
    /* number of locations to test */
    unsigned long nWords = nTo - nFrom;
 
    switch (run) {
    case 0:
        pattern = MC_TEST_PAT1_8;
        pattern16 = (pattern << 8);
        pattern32 = (pattern16 << 16); break;
    case 1:
        pattern = MC_TEST_PAT2_8;
        pattern16 = (pattern << 8);
        pattern32 = (pattern16 << 16); break;
    case 2:
        pattern = MC_TEST_PAT3_8;
        pattern16 = (pattern << 8);
        pattern32 = (pattern16 << 16); break;
    case 3:
        pattern = MC_TEST_PAT4_8;
        pattern16 = (pattern << 8);
        pattern32 = (pattern16 << 16); break;
    case 4:
        pattern32 = pattern16 = pattern = 0; inc = 1; break;
    } /*switch*/
 
    printf ("\tmc_test_row_8(0x%02dX, %d, 0x%08lX, 0x%08lX);\n", pattern, seq, nFrom, nTo);
 
    switch (seq) {
    case 0: /*seq. row write, row read*/
        for (i=nFrom; i<nTo; i++) {
            mem8  = (unsigned char*)i;
            *mem8 = pattern;
            if (inc) pattern++;
        } /*for*/
 
        if (inc) pattern = 0;
        for (i=nFrom; i<nTo; i++) {
            mem8 = (unsigned char*)i;
            read = *mem8;
 
            if ( read != pattern ) {
                printf("\ti=%lX, read=0x%02dX, pattern=0x%02dX\n", i, read, pattern);
                return (unsigned long)mem8;
            }
 
            if (inc) pattern++;
        } /*for*/
        break;
    case 1: /*seq. word write, word read*/
        for (i=nFrom; i<nTo; i++) {
            mem8  = (unsigned char*)i;
            *mem8 = pattern;
            read = *mem8;
 
            if (read != pattern ) {
                printf("\ti=%lX, read=0x%02dX, pattern=0x%02dX\n", i, read, pattern);
                return (unsigned long)mem8;
            }
 
            mem16  = (unsigned short*)(i & 0xFFFFFFFELU);
            read16 = *mem16;
            if (read16 != pattern16) {
                printf("\ti=%lX, read16=0x%04dX, pattern16=0x%04dX\n", i, read16, pattern16);
                return (unsigned long)mem16;
            }
            mem32  = (unsigned long*)(i & 0xFFFFFFFCLU);
            read32 = *mem32;
            if (read32 != pattern32) {
                printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);
                return (unsigned long)mem32;
            }
 
            if (inc) pattern++;
            switch ((i+1)%4) {
            case 0:
                pattern16 = (pattern << 8);
                pattern32 = (pattern << 24); break;
            case 1:
                pattern16 += pattern;
                pattern32 = pattern16 << 16; break;
            case 2:
                pattern16 = (pattern << 8);
                pattern32 += pattern16;break;
            case 3:
                pattern16 += pattern;
                pattern32 += pattern; break;
            } /*switch i%4*/
        } /*for*/
        break;
    case 2: /*rand. word write, word read*/
        for (i=0; i<nWords; i++) {
            mem8  = (unsigned char*)(nFrom + random(nWords));
            *mem8 = pattern;
            read  = *mem8;
 
            if (read != pattern ) {
                printf("\ti=%lX, read=0x%02dX, pattern=0x%02dX\n", i, read, pattern);
                return (unsigned long)mem8;
            }
 
            if (inc) pattern++;
        }
        break;
    } /*switch seq*/
 
    return 0;
} /* mc_test_row_8 */
 
unsigned long mc_test_row_16(int run, int seq, unsigned long nFrom, unsigned long nTo)
{
    MEMLOC16 mem16 = 0;
    MEMLOC32 mem32 = 0;
 
    unsigned short pattern16 = 0;
    unsigned long pattern32  = 0;
    unsigned short read16;
    unsigned long read32;
    int inc = 0;
 
    unsigned long i;
 
    unsigned long nWords = (nTo - nFrom)/2;
 
    switch (run) {
    case 0:
        pattern16 = MC_TEST_PAT1_16;
        pattern32 = (pattern16 << 16); break;
    case 1:
        pattern16 = MC_TEST_PAT2_16;
        pattern32 = (pattern16 << 16); break;
    case 2:
        pattern16 = MC_TEST_PAT3_16;
        pattern32 = (pattern16 << 16);break;
    case 3:
        pattern16 = MC_TEST_PAT4_16;
        pattern32 = (pattern16 << 16); break;
    case 4:
        pattern16 = pattern32 = 0; inc = 1; break;
    } /*switch*/
 
    printf ("\tmc_test_row_16(0x%04dX, %d, 0x%08lX, 0x%08lX);\n", pattern16, seq, nFrom, nTo);
 
    switch (seq) {
    case 0: /*seq. row write, row read*/
        for (i=nFrom; i<nTo; i+=2) {
            mem16  = (unsigned short*)i;
            *mem16 = pattern16;
            if (inc) pattern16++;
        } /*for*/
 
        if (inc) pattern16 = 0;
        for (i=nFrom; i<nTo; i+=2) {
            mem16  = (unsigned short*)i;
            read16 = *mem16;
 
            if ( read16 != pattern16 ) {
                printf("\ti=%lX, read16=0x%04dX, pattern16=0x%04dX\n", i, read16, pattern16);
                return (unsigned long)mem16;
            }
 
            if (inc) pattern16++;
        } /*for*/
        break;
    case 1: /*seq. word write, word read*/
        for (i=nFrom; i<nTo; i+=2) {
            mem16  = (unsigned short*)i;
            *mem16 = pattern16;
            read16 = *mem16;
 
            if (read16 != pattern16 ) {
                printf("\ti=%lX, read16=0x%04dX, pattern16=0x%04dX\n", i, read16, pattern16);
                return (unsigned long)mem16;
            }
 
            mem32  = (unsigned long*)(i & 0xFFFFFFFCLU);
            read32 = *mem32;
            if (read32 != pattern32) {
                printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);
                return (unsigned long)mem32;
            }
 
            if (inc) pattern16++;
            switch ((i+2)%4) {
            case 0:
                pattern32 = (pattern16 << 16); break;
            case 2:
                pattern32 += pattern16;
            } /*switch i%4*/
        } /*for*/
        break;
    case 2: /*rand. word write, word read*/
        for (i=0; i<nWords; i++) {
            mem16  = (unsigned short*)(nFrom + random(nWords)*2);
            *mem16 = pattern16;
            read16 = *mem16;
 
            if (read16 != pattern16 ) {
                printf("\ti=%lX, read16=0x%04dX, pattern16=0x%04dX\n", i, read16, pattern16);
                return (unsigned long)mem16;
            }
 
            if (inc) pattern16++;
        }
        break;
    } /*switch seq*/
    return 0;
} /* mc_test_row_16 */
 
unsigned long mc_test_row_32(int run, int seq, unsigned long nFrom, unsigned long nTo)
{
    MEMLOC32 mem32 = 0;
 
    unsigned long pattern32 = 0;
    unsigned long read32;
    int inc = 0;
 
    unsigned long i;
 
    unsigned long nWords = (nTo - nFrom)/4;
 
    switch (run) {
    case 0:
        pattern32 = MC_TEST_PAT1_32; break;
    case 1:
        pattern32 = MC_TEST_PAT2_32; break;
    case 2:
        pattern32 = MC_TEST_PAT3_32; break;
    case 3:
        pattern32 = MC_TEST_PAT4_32; break;
    case 4:
        pattern32 = nFrom; inc = 1; break;
    } /*switch*/
 
    printf ("\tmc_test_row_32(0x%08lX, %d, 0x%08lX, 0x%08lX);\n", pattern32, seq, nFrom, nTo);
 
    switch (seq) {
    case 0: /*seq. row write, row read*/
        for (i=nFrom; i<nTo; i+=4) {
            mem32  = (unsigned long*)i;
            *mem32 = pattern32;
            if (inc) pattern32 += 4;
        } /*for*/
 
        if (inc) pattern32 = nFrom;
        for (i=nFrom; i<nTo; i+=4) {
            mem32 = (unsigned long *)i;
            read32 = *mem32;
 
            if ( read32 != pattern32 ) {
                printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);
                return (unsigned long)mem32;
            }
 
            if (inc) pattern32 += 4;
        } /*for*/
        break;
    case 1: /*seq. word write, word read*/
        for (i=nFrom; i<nTo; i+=4) {
            mem32  = (unsigned long*)i;
            *mem32 = pattern32;
            read32 = *mem32;
 
            if (read32 != pattern32 ) {
                printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);
                return (unsigned long)mem32;
            }
 
            if (inc) pattern32 += 4;
 
        }
        break;
    case 2: /*rand. word write, word read*/
        for (i=0; i<nWords; i++) {
            mem32 = (unsigned long*)(nFrom + random(nWords)*4);
            if (inc)
                pattern32 = (unsigned long)mem32;
            *mem32 = pattern32;
            read32  = *mem32;
 
            if (read32 != pattern32 ) {
                printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);
                return (unsigned long)mem32;
            }
        } /*for*/
        break;
    } /*switch seq*/
    return 0;
} /* mc_test_row_32 */
 
 
/*---------------------------------------------------------------------------*/
 
 
/*-----[ Common Functions ]--------------------------------------------------*/
unsigned long mc_test_row(unsigned long nFrom, unsigned long nTo, unsigned long flags)
{
    int nRun, nSize, nSeq;
    int ret = 0;
 
    printf("\nmc_test_row(0x%08lX, 0x%08lX)\n", nFrom, nTo);
 
    for (nRun = 0; nRun < 5; nRun++) {
        switch (nRun) {
        case 0:
            if ( (flags & MC_TEST_RUN0) != MC_TEST_RUN0 )
                continue;
            break;
        case 1:
            if ( (flags & MC_TEST_RUN1) != MC_TEST_RUN1 )
                continue;
            break;
        case 2:
            if ( (flags & MC_TEST_RUN01) != MC_TEST_RUN01 )
                continue;
            break;
        case 3:
            if ( (flags & MC_TEST_RUN10) != MC_TEST_RUN10 )
                continue;
            break;
        case 4:
            if ( (flags & MC_TEST_RUNINC) != MC_TEST_RUNINC )
                continue;
        } /*switch*/
 
        for (nSeq = 0; nSeq < 3; nSeq++) {
            switch (nSeq) {
            case 0:
                if ( (flags & MC_TEST_SEQ) != MC_TEST_SEQ )
                    continue;
                break;
            case 1:
                if ( (flags & MC_TEST_SEQ1) != MC_TEST_SEQ1 )
                    continue;
                break;
            case 2:
              if ( (flags & MC_TEST_RAND) != MC_TEST_RAND )
                    continue;
            } /*switch*/
 
            for (nSize = 0; nSize < 3; nSize++) {
                switch (nSize) {
                case 0:
                    if ( (flags & MC_TEST_8) != MC_TEST_8 )
                        continue;
                    ret = mc_test_row_8(nRun, nSeq, nFrom, nTo);
                    break;
                case 1:
                    if ( (flags & MC_TEST_16) != MC_TEST_16)
                        continue;
                    ret = mc_test_row_16(nRun, nSeq, nFrom, nTo);
                    break;
                case 2:
                    if ( (flags & MC_TEST_32) != MC_TEST_32)
                        continue;
                    ret = mc_test_row_32(nRun, nSeq, nFrom, nTo);
                } /*switch*/
 
                if (ret) return ret;
                mc_clear_row(nFrom, nTo);
            } /*for nSize*/
        } /*for nSeq*/
        /*report(0xDEADDEAD);*/
    } /*for nRun*/
 
    return 0;
} /* mc_test_row */

Line No.	Rev	Author	Line
1	454	ivang	`/* mc_common.c -- Memory Controller testbenck common routines`
2			`Copyright (C) 2001 by Ivan Guzvinec, ivang@opencores.org`
3
4			`This file is part of OpenRISC 1000 Architectural Simulator.`
5
6			`This program is free software; you can redistribute it and/or modify`
7			`it under the terms of the GNU General Public License as published by`
8			`the Free Software Foundation; either version 2 of the License, or`
9			`(at your option) any later version.`
10
11			`This program is distributed in the hope that it will be useful,`
12			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
13			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
14			`GNU General Public License for more details.`
15
16			`You should have received a copy of the GNU General Public License`
17			`along with this program; if not, write to the Free Software`
18			`Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.`
19			`*/`
20
21			`#include "support.h"`
22			`#include "mc_common.h"`
23
24			`static int r_Xn;`
25			`static int r_mod;`
26
27			`void randomin(unsigned long seed)`
28			`{`
29			`r_Xn = seed;`
30			`r_mod = 33554431; /* 2^25 - 1*/`
31			`}`
32
33			`unsigned long random(unsigned long max)`
34			`{`
35			`r_Xn = ((r_Xn * (r_Xn + 1))%r_mod);`
36			`if (r_Xn == 0) r_Xn = 42+1;`
37			`return r_Xn%max;`
38			`}`
39
40			`void mc_clear_row(unsigned long nFrom, unsigned long nTo)`
41			`{`
42			`MEMLOC32 mem32 = 0;`
43			`unsigned long i;`
44
45			`for(i=nFrom; i<nTo; i+=4) {`
46	476	ivang	`mem32 = (unsigned long*)i;`
47	454	ivang	`*mem32 = 0UL;`
48			`}`
49			`}`
50
51			`unsigned long mc_test_row_8(int run, int seq, unsigned long nFrom, unsigned long nTo)`
52			`{`
53			`MEMLOC8 mem8 = 0;`
54			`MEMLOC16 mem16 = 0;`
55			`MEMLOC32 mem32 = 0;`
56
57			`unsigned char pattern = 0;`
58			`unsigned short pattern16 = 0;`
59			`unsigned long pattern32 = 0;`
60			`unsigned char read;`
61			`unsigned short read16;`
62			`unsigned long read32;`
63			`int inc = 0;`
64
65			`unsigned long i;`
66
67			`/* number of locations to test */`
68			`unsigned long nWords = nTo - nFrom;`
69
70			`switch (run) {`
71			`case 0:`
72			`pattern = MC_TEST_PAT1_8;`
73			`pattern16 = (pattern << 8);`
74			`pattern32 = (pattern16 << 16); break;`
75			`case 1:`
76			`pattern = MC_TEST_PAT2_8;`
77			`pattern16 = (pattern << 8);`
78			`pattern32 = (pattern16 << 16); break;`
79			`case 2:`
80			`pattern = MC_TEST_PAT3_8;`
81			`pattern16 = (pattern << 8);`
82			`pattern32 = (pattern16 << 16); break;`
83			`case 3:`
84			`pattern = MC_TEST_PAT4_8;`
85			`pattern16 = (pattern << 8);`
86			`pattern32 = (pattern16 << 16); break;`
87			`case 4:`
88			`pattern32 = pattern16 = pattern = 0; inc = 1; break;`
89			`} /switch/`
90
91	1024	simons	`printf ("\tmc_test_row_8(0x%02dX, %d, 0x%08lX, 0x%08lX);\n", pattern, seq, nFrom, nTo);`
92	454	ivang
93			`switch (seq) {`
94			`case 0: /seq. row write, row read/`
95			`for (i=nFrom; i<nTo; i++) {`
96	476	ivang	`mem8 = (unsigned char*)i;`
97	454	ivang	`*mem8 = pattern;`
98			`if (inc) pattern++;`
99			`} /for/`
100
101			`if (inc) pattern = 0;`
102			`for (i=nFrom; i<nTo; i++) {`
103	476	ivang	`mem8 = (unsigned char*)i;`
104	454	ivang	`read = *mem8;`
105
106			`if ( read != pattern ) {`
107	1024	simons	`printf("\ti=%lX, read=0x%02dX, pattern=0x%02dX\n", i, read, pattern);`
108	454	ivang	`return (unsigned long)mem8;`
109			`}`
110
111			`if (inc) pattern++;`
112			`} /for/`
113			`break;`
114			`case 1: /seq. word write, word read/`
115			`for (i=nFrom; i<nTo; i++) {`
116	476	ivang	`mem8 = (unsigned char*)i;`
117	454	ivang	`*mem8 = pattern;`
118			`read = *mem8;`
119
120			`if (read != pattern ) {`
121	1024	simons	`printf("\ti=%lX, read=0x%02dX, pattern=0x%02dX\n", i, read, pattern);`
122	454	ivang	`return (unsigned long)mem8;`
123			`}`
124
125	476	ivang	`mem16 = (unsigned short*)(i & 0xFFFFFFFELU);`
126	454	ivang	`read16 = *mem16;`
127			`if (read16 != pattern16) {`
128	1024	simons	`printf("\ti=%lX, read16=0x%04dX, pattern16=0x%04dX\n", i, read16, pattern16);`
129	454	ivang	`return (unsigned long)mem16;`
130			`}`
131	476	ivang	`mem32 = (unsigned long*)(i & 0xFFFFFFFCLU);`
132	454	ivang	`read32 = *mem32;`
133			`if (read32 != pattern32) {`
134	1024	simons	`printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);`
135	454	ivang	`return (unsigned long)mem32;`
136			`}`
137
138			`if (inc) pattern++;`
139			`switch ((i+1)%4) {`
140			`case 0:`
141			`pattern16 = (pattern << 8);`
142			`pattern32 = (pattern << 24); break;`
143			`case 1:`
144			`pattern16 += pattern;`
145			`pattern32 = pattern16 << 16; break;`
146			`case 2:`
147			`pattern16 = (pattern << 8);`
148			`pattern32 += pattern16;break;`
149			`case 3:`
150			`pattern16 += pattern;`
151			`pattern32 += pattern; break;`
152			`} /switch i%4/`
153			`} /for/`
154			`break;`
155			`case 2: /rand. word write, word read/`
156			`for (i=0; i<nWords; i++) {`
157	476	ivang	`mem8 = (unsigned char*)(nFrom + random(nWords));`
158	454	ivang	`*mem8 = pattern;`
159			`read = *mem8;`
160
161			`if (read != pattern ) {`
162	1024	simons	`printf("\ti=%lX, read=0x%02dX, pattern=0x%02dX\n", i, read, pattern);`
163	454	ivang	`return (unsigned long)mem8;`
164			`}`
165
166			`if (inc) pattern++;`
167			`}`
168			`break;`
169			`} /switch seq/`
170
171			`return 0;`
172			`} /* mc_test_row_8 */`
173
174			`unsigned long mc_test_row_16(int run, int seq, unsigned long nFrom, unsigned long nTo)`
175			`{`
176			`MEMLOC16 mem16 = 0;`
177			`MEMLOC32 mem32 = 0;`
178
179			`unsigned short pattern16 = 0;`
180			`unsigned long pattern32 = 0;`
181			`unsigned short read16;`
182			`unsigned long read32;`
183			`int inc = 0;`
184
185			`unsigned long i;`
186
187			`unsigned long nWords = (nTo - nFrom)/2;`
188
189			`switch (run) {`
190			`case 0:`
191			`pattern16 = MC_TEST_PAT1_16;`
192			`pattern32 = (pattern16 << 16); break;`
193			`case 1:`
194			`pattern16 = MC_TEST_PAT2_16;`
195			`pattern32 = (pattern16 << 16); break;`
196			`case 2:`
197			`pattern16 = MC_TEST_PAT3_16;`
198			`pattern32 = (pattern16 << 16);break;`
199			`case 3:`
200			`pattern16 = MC_TEST_PAT4_16;`
201			`pattern32 = (pattern16 << 16); break;`
202			`case 4:`
203			`pattern16 = pattern32 = 0; inc = 1; break;`
204			`} /switch/`
205
206	1024	simons	`printf ("\tmc_test_row_16(0x%04dX, %d, 0x%08lX, 0x%08lX);\n", pattern16, seq, nFrom, nTo);`
207	454	ivang
208			`switch (seq) {`
209			`case 0: /seq. row write, row read/`
210			`for (i=nFrom; i<nTo; i+=2) {`
211	476	ivang	`mem16 = (unsigned short*)i;`
212	454	ivang	`*mem16 = pattern16;`
213			`if (inc) pattern16++;`
214			`} /for/`
215
216			`if (inc) pattern16 = 0;`
217			`for (i=nFrom; i<nTo; i+=2) {`
218	476	ivang	`mem16 = (unsigned short*)i;`
219	454	ivang	`read16 = *mem16;`
220
221			`if ( read16 != pattern16 ) {`
222	1024	simons	`printf("\ti=%lX, read16=0x%04dX, pattern16=0x%04dX\n", i, read16, pattern16);`
223	454	ivang	`return (unsigned long)mem16;`
224			`}`
225
226			`if (inc) pattern16++;`
227			`} /for/`
228			`break;`
229			`case 1: /seq. word write, word read/`
230			`for (i=nFrom; i<nTo; i+=2) {`
231	476	ivang	`mem16 = (unsigned short*)i;`
232	454	ivang	`*mem16 = pattern16;`
233			`read16 = *mem16;`
234
235			`if (read16 != pattern16 ) {`
236	1024	simons	`printf("\ti=%lX, read16=0x%04dX, pattern16=0x%04dX\n", i, read16, pattern16);`
237	454	ivang	`return (unsigned long)mem16;`
238			`}`
239
240	476	ivang	`mem32 = (unsigned long*)(i & 0xFFFFFFFCLU);`
241	454	ivang	`read32 = *mem32;`
242			`if (read32 != pattern32) {`
243	1024	simons	`printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);`
244	454	ivang	`return (unsigned long)mem32;`
245			`}`
246
247			`if (inc) pattern16++;`
248			`switch ((i+2)%4) {`
249			`case 0:`
250			`pattern32 = (pattern16 << 16); break;`
251			`case 2:`
252			`pattern32 += pattern16;`
253			`} /switch i%4/`
254			`} /for/`
255			`break;`
256			`case 2: /rand. word write, word read/`
257			`for (i=0; i<nWords; i++) {`
258	476	ivang	`mem16 = (unsigned short)(nFrom + random(nWords)2);`
259	454	ivang	`*mem16 = pattern16;`
260			`read16 = *mem16;`
261
262			`if (read16 != pattern16 ) {`
263	1024	simons	`printf("\ti=%lX, read16=0x%04dX, pattern16=0x%04dX\n", i, read16, pattern16);`
264	454	ivang	`return (unsigned long)mem16;`
265			`}`
266
267			`if (inc) pattern16++;`
268			`}`
269			`break;`
270			`} /switch seq/`
271			`return 0;`
272			`} /* mc_test_row_16 */`
273
274			`unsigned long mc_test_row_32(int run, int seq, unsigned long nFrom, unsigned long nTo)`
275			`{`
276			`MEMLOC32 mem32 = 0;`
277
278			`unsigned long pattern32 = 0;`
279			`unsigned long read32;`
280			`int inc = 0;`
281
282			`unsigned long i;`
283
284			`unsigned long nWords = (nTo - nFrom)/4;`
285
286			`switch (run) {`
287			`case 0:`
288			`pattern32 = MC_TEST_PAT1_32; break;`
289			`case 1:`
290			`pattern32 = MC_TEST_PAT2_32; break;`
291			`case 2:`
292			`pattern32 = MC_TEST_PAT3_32; break;`
293			`case 3:`
294			`pattern32 = MC_TEST_PAT4_32; break;`
295			`case 4:`
296			`pattern32 = nFrom; inc = 1; break;`
297			`} /switch/`
298
299	1024	simons	`printf ("\tmc_test_row_32(0x%08lX, %d, 0x%08lX, 0x%08lX);\n", pattern32, seq, nFrom, nTo);`
300	454	ivang
301			`switch (seq) {`
302			`case 0: /seq. row write, row read/`
303			`for (i=nFrom; i<nTo; i+=4) {`
304	476	ivang	`mem32 = (unsigned long*)i;`
305	454	ivang	`*mem32 = pattern32;`
306			`if (inc) pattern32 += 4;`
307			`} /for/`
308
309			`if (inc) pattern32 = nFrom;`
310			`for (i=nFrom; i<nTo; i+=4) {`
311	476	ivang	`mem32 = (unsigned long *)i;`
312	454	ivang	`read32 = *mem32;`
313
314			`if ( read32 != pattern32 ) {`
315	1024	simons	`printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);`
316	454	ivang	`return (unsigned long)mem32;`
317			`}`
318
319			`if (inc) pattern32 += 4;`
320			`} /for/`
321			`break;`
322			`case 1: /seq. word write, word read/`
323			`for (i=nFrom; i<nTo; i+=4) {`
324	476	ivang	`mem32 = (unsigned long*)i;`
325	454	ivang	`*mem32 = pattern32;`
326			`read32 = *mem32;`
327
328			`if (read32 != pattern32 ) {`
329	1024	simons	`printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);`
330	454	ivang	`return (unsigned long)mem32;`
331			`}`
332
333			`if (inc) pattern32 += 4;`
334
335			`}`
336			`break;`
337			`case 2: /rand. word write, word read/`
338			`for (i=0; i<nWords; i++) {`
339	476	ivang	`mem32 = (unsigned long)(nFrom + random(nWords)4);`
340			`if (inc)`
341			`pattern32 = (unsigned long)mem32;`
342	454	ivang	`*mem32 = pattern32;`
343			`read32 = *mem32;`
344
345			`if (read32 != pattern32 ) {`
346	1024	simons	`printf("\ti=%lX, read32=0x%08lX, pattern32=0x%08lX\n", i, read32, pattern32);`
347	454	ivang	`return (unsigned long)mem32;`
348			`}`
349			`} /for/`
350			`break;`
351			`} /switch seq/`
352			`return 0;`
353			`} /* mc_test_row_32 */`
354
355
356			`/---------------------------------------------------------------------------/`
357
358
359			`/-----[ Common Functions ]--------------------------------------------------/`
360			`unsigned long mc_test_row(unsigned long nFrom, unsigned long nTo, unsigned long flags)`
361			`{`
362			`int nRun, nSize, nSeq;`
363			`int ret = 0;`
364
365	1024	simons	`printf("\nmc_test_row(0x%08lX, 0x%08lX)\n", nFrom, nTo);`
366	454	ivang
367			`for (nRun = 0; nRun < 5; nRun++) {`
368			`switch (nRun) {`
369			`case 0:`
370			`if ( (flags & MC_TEST_RUN0) != MC_TEST_RUN0 )`
371			`continue;`
372			`break;`
373			`case 1:`
374			`if ( (flags & MC_TEST_RUN1) != MC_TEST_RUN1 )`
375			`continue;`
376			`break;`
377			`case 2:`
378			`if ( (flags & MC_TEST_RUN01) != MC_TEST_RUN01 )`
379			`continue;`
380			`break;`
381			`case 3:`
382			`if ( (flags & MC_TEST_RUN10) != MC_TEST_RUN10 )`
383			`continue;`
384			`break;`
385			`case 4:`
386			`if ( (flags & MC_TEST_RUNINC) != MC_TEST_RUNINC )`
387			`continue;`
388			`} /switch/`
389
390			`for (nSeq = 0; nSeq < 3; nSeq++) {`
391			`switch (nSeq) {`
392			`case 0:`
393			`if ( (flags & MC_TEST_SEQ) != MC_TEST_SEQ )`
394			`continue;`
395			`break;`
396			`case 1:`
397			`if ( (flags & MC_TEST_SEQ1) != MC_TEST_SEQ1 )`
398			`continue;`
399			`break;`
400			`case 2:`
401			`if ( (flags & MC_TEST_RAND) != MC_TEST_RAND )`
402			`continue;`
403			`} /switch/`
404
405			`for (nSize = 0; nSize < 3; nSize++) {`
406			`switch (nSize) {`
407			`case 0:`
408			`if ( (flags & MC_TEST_8) != MC_TEST_8 )`
409			`continue;`
410			`ret = mc_test_row_8(nRun, nSeq, nFrom, nTo);`
411			`break;`
412			`case 1:`
413			`if ( (flags & MC_TEST_16) != MC_TEST_16)`
414			`continue;`
415			`ret = mc_test_row_16(nRun, nSeq, nFrom, nTo);`
416			`break;`
417			`case 2:`
418			`if ( (flags & MC_TEST_32) != MC_TEST_32)`
419			`continue;`
420			`ret = mc_test_row_32(nRun, nSeq, nFrom, nTo);`
421			`} /switch/`
422
423			`if (ret) return ret;`
424			`mc_clear_row(nFrom, nTo);`
425			`} /for nSize/`
426			`} /for nSeq/`
427	552	ivang	`/report(0xDEADDEAD);/`
428	454	ivang	`} /for nRun/`
429
430			`return 0;`
431			`} /* mc_test_row */`

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