ab56afefc1
Change-Id: I4a14c8b0cf1a8c822166ce01087b31c06722d8ae
264 lines
7.7 KiB
C
264 lines
7.7 KiB
C
/***************************************************************************
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* __________ __ ___.
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* Open \______ \ ____ ____ | | _\_ |__ _______ ___
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* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
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* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
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* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
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* \/ \/ \/ \/ \/
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* $Id$
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*
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* Copyright (C) 2010 Thomas Martitz, Andree Buschmann
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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* KIND, either express or implied.
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*
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****************************************************************************/
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#include "plugin.h"
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#if PLUGIN_BUFFER_SIZE <= 0x8000
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#define BUF_SIZE (1<<12) /* 16 KB = (1<<12)*sizeof(int) */
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#else
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#define BUF_SIZE (1<<13) /* 32 KB = (1<<13)*sizeof(int) */
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#endif
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#define LOOP_REPEAT_DRAM 256
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static int loop_repeat_dram = LOOP_REPEAT_DRAM;
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static volatile int buf_dram[BUF_SIZE] MEM_ALIGN_ATTR;
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#if defined(PLUGIN_USE_IRAM)
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#define LOOP_REPEAT_IRAM 256
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static int loop_repeat_iram = LOOP_REPEAT_DRAM;
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static volatile int buf_iram[BUF_SIZE] IBSS_ATTR MEM_ALIGN_ATTR;
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#endif
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/* (Byte per loop * loops)>>20 * ticks per s * 10 / ticks = dMB per s */
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#define dMB_PER_SEC(buf_size, cnt, delta) ((((buf_size*sizeof(int)*cnt)>>20)*HZ*10)/delta)
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static void memset_test(volatile int *buf, int buf_size, int loop_cnt)
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{
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size_t buf_bytes = buf_size*sizeof(buf[0]);
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for(int i = 0; i < loop_cnt; i++)
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{
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memset((void*)buf, 0xff, buf_bytes);
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}
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}
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static void memcpy_test(volatile int *buf, int buf_size, int loop_cnt)
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{
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/* half-size memcpy since memory regions must not overlap */
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void* half_buf = (void*)(&buf[buf_size/2]);
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size_t half_buf_bytes = buf_size * sizeof(buf[0]) / 2;
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/* double loop count to compensate for half size memcpy */
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for(int i = 0; i < loop_cnt*2; i++)
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{
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memcpy((void*)&buf[0], half_buf, half_buf_bytes);
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}
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}
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static void write_test(volatile int *buf, int buf_size, int loop_cnt)
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{
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#if defined(CPU_ARM)
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asm volatile (
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"mov r0, #0 \n"
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"mov r1, #1 \n"
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"mov r2, #2 \n"
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"mov r3, #3 \n"
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"mov r6, %[loops] \n"
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".outer_loop_read: \n"
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"mov r4, %[buf_p] \n"
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"mov r5, %[size] \n"
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".inner_loop_read: \n"
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"stmia r4!, {r0-r3} \n"
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"stmia r4!, {r0-r3} \n"
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"subs r5, r5, #8 \n"
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"bgt .inner_loop_read \n"
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"subs r6, r6, #1 \n"
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"bgt .outer_loop_read \n"
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:
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: [loops] "r" (loop_cnt), [size] "r" (buf_size), [buf_p] "r" (buf)
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: "r0", "r1", "r2", "r3", "r4", "r5", "r6", "memory", "cc"
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);
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#else
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for(int i = 0; i < loop_cnt; i++)
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{
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for(int j = 0; j < buf_size; j+=4)
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{
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buf[j ] = j;
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buf[j+1] = j+1;
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buf[j+2] = j+2;
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buf[j+3] = j+3;
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}
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}
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#endif
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}
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static void read_test(volatile int *buf, int buf_size, int loop_cnt)
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{
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#if defined(CPU_ARM)
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asm volatile (
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"mov r6, %[loops] \n"
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".outer_loop_write: \n"
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"mov r4, %[buf_p] \n"
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"mov r5, %[size] \n"
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".inner_loop_write: \n"
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"ldmia r4!, {r0-r3} \n"
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"subs r5, r5, #8 \n"
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"ldmia r4!, {r0-r3} \n"
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"bgt .inner_loop_write \n"
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"subs r6, r6, #1 \n"
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"bgt .outer_loop_write \n"
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:
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: [loops] "r" (loop_cnt), [size] "r" (buf_size), [buf_p] "r" (buf)
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: "r0", "r1", "r2", "r3", "r4", "r5", "r6", "memory", "cc"
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);
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#else
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int x;
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for(int i = 0; i < loop_cnt; i++)
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{
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for(int j = 0; j < buf_size; j+=4)
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{
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x = buf[j ];
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x = buf[j+2];
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x = buf[j+3];
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x = buf[j+4];
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}
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}
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(void)x;
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#endif
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}
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enum test_type {
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READ,
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WRITE,
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MEMSET,
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MEMCPY,
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};
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static const char tests[][7] = {
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[READ] = "read ",
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[WRITE] = "write ",
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[MEMSET] = "memset",
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[MEMCPY] = "memcpy",
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};
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static int line;
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#define TEST_MEM_PRINTF(...) rb->screens[0]->putsf(0, line++, __VA_ARGS__)
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static int test(volatile int *buf, int buf_size, int loop_cnt,
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enum test_type type)
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{
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int delta, dMB;
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int last_tick = *rb->current_tick;
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int ret = 0;
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switch(type)
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{
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case READ: read_test(buf, buf_size, loop_cnt); break;
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case WRITE: write_test(buf, buf_size, loop_cnt); break;
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case MEMSET: memset_test(buf, buf_size, loop_cnt); break;
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case MEMCPY: memcpy_test(buf, buf_size, loop_cnt); break;
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}
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delta = *rb->current_tick - last_tick;
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if (delta <= 20)
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{
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/* The loop_cnt will be increased for the next measurement set until
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* each measurement at least takes 10 ticks. This is to ensure a
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* minimum accuracy. */
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ret = 1;
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}
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delta = delta>0 ? delta : delta+1;
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dMB = dMB_PER_SEC(buf_size, loop_cnt, delta);
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TEST_MEM_PRINTF("%s: %3d.%d MB/s (%3d ms)",
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tests[type], dMB/10, dMB%10, delta*10);
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return ret;
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}
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enum plugin_status plugin_start(const void* parameter)
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{
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(void)parameter;
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bool done = false;
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#ifdef HAVE_ADJUSTABLE_CPU_FREQ
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bool boost = false;
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#endif
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int count = 0;
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#ifdef HAVE_LCD_BITMAP
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rb->lcd_setfont(FONT_SYSFIXED);
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#endif
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rb->screens[0]->clear_display();
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TEST_MEM_PRINTF("patience, may take some seconds...");
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rb->screens[0]->update();
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while (!done)
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{
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line = 0;
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int ret;
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rb->screens[0]->clear_display();
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#ifdef HAVE_ADJUSTABLE_CPU_FREQ
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TEST_MEM_PRINTF("%s", boost?"boosted":"unboosted");
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TEST_MEM_PRINTF("clock: %d Hz", *rb->cpu_frequency);
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#endif
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TEST_MEM_PRINTF("loop#: %d", ++count);
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TEST_MEM_PRINTF("DRAM cnt: %d size: %d MB", loop_repeat_dram,
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(loop_repeat_dram*BUF_SIZE*sizeof(buf_dram[0]))>>20);
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ret = 0;
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ret |= test(buf_dram, BUF_SIZE, loop_repeat_dram, READ);
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ret |= test(buf_dram, BUF_SIZE, loop_repeat_dram, WRITE);
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ret |= test(buf_dram, BUF_SIZE, loop_repeat_dram, MEMSET);
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ret |= test(buf_dram, BUF_SIZE, loop_repeat_dram, MEMCPY);
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if (ret != 0) loop_repeat_dram *= 2;
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#if defined(PLUGIN_USE_IRAM)
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TEST_MEM_PRINTF("IRAM cnt: %d size: %d MB", loop_repeat_iram,
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(loop_repeat_iram*BUF_SIZE*sizeof(buf_iram[0]))>>20);
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ret = 0;
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ret |= test(buf_iram, BUF_SIZE, loop_repeat_iram, READ);
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ret |= test(buf_iram, BUF_SIZE, loop_repeat_iram, WRITE);
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ret |= test(buf_iram, BUF_SIZE, loop_repeat_iram, MEMSET);
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ret |= test(buf_iram, BUF_SIZE, loop_repeat_iram, MEMCPY);
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if (ret != 0) loop_repeat_iram *= 2;
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#endif
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rb->screens[0]->update();
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switch (rb->get_action(CONTEXT_STD, HZ/5))
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{
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#ifdef HAVE_ADJUSTABLE_CPU_FREQ
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case ACTION_STD_PREV:
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if (!boost)
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{
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rb->cpu_boost(true);
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boost = true;
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}
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break;
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case ACTION_STD_NEXT:
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if (boost)
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{
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rb->cpu_boost(false);
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boost = false;
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}
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break;
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#endif
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case ACTION_STD_CANCEL:
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done = true;
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break;
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}
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}
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return PLUGIN_OK;
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}
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