/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /*************************************************************************** * i2stest.c * * Mon Sep 1 20:25:48 CEST 2014 * Copyright 2014 Bent Bisballe Nyeng * deva@aasimon.org ****************************************************************************/ /* * This file is part of Pedal2Metal. * * Pedal2Metal 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. * * Pedal2Metal 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 Pedal2Metal; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #include #include #include //#include #include #include "../../src/sample.h" unsigned int size = sizeof(samples) / sizeof(short); #include "../test.h" #if 0 void I2S_IRQHandler (void) { static int16_t cnt = 0; for(int i = 0; i < 6; i++) { //if(1 || (cnt % 24000) == 0) led_toggle(); i2s_write_pcm_16_stereo(cnt, cnt); cnt++; } /* uint32_t RxCount = 0; if ( LPC_I2S->I2SSTATE & 0x01 ) { RxCount = (LPC_I2S->I2SSTATE >> 8) & 0xFF; if ( (RxCount != RXFIFO_EMPTY) && !I2SRXDone ) { while ( RxCount > 0 ) { if ( I2SReadLength == BUFSIZE ) { LPC_I2S->I2SDAI |= ((0x01 << 3) | (0x01 << 4)); LPC_I2S->I2SIRQ &= ~(0x01 << 0); // Disable RX I2SRXDone = 1; break; } else { I2SRXBuffer[I2SReadLength++] = LPC_I2S->I2SRXFIFO; } RxCount--; } } } return; */ } #endif int main (void) { led_init(); cli_init(); /////////// WM8523 uint8_t portnum = 0; wm8523_init(portnum, WM8523_FS_48K); if(wm8523_get_chip_id(portnum) != WM8523_CHIP_ID) error(); wm8523_reset_registers(portnum); wm8523_power_mode_t pwr = WM8523_PWR_POWER_UP_TO_UNMUTE; wm8523_set_power_mode(portnum, pwr); wm8523_aif_ctrl1_t ctl1; ctl1.fmt = WM8523_FMT_I2S; ctl1.wlen = WM8523_WLEN_16; ctl1.invctl = WM8523_INVCTL_SLAVE_RISING; ctl1.lrclkinvctl = WM8523_LRCLKINVCTL_SLAVE_NORMAL; ctl1.modesel = WM8523_MODESEL_SLAVE; ctl1.deemp = WM8523_DEEMPH_ENABLED; wm8523_set_aif_ctrl1(portnum, ctl1); wm8523_aif_ctrl2_t ctl2; ctl2.clkratio = WM8523_CLKRATIO_AUTO; ctl2.clkdiv = WM8523_CLKDIV_MCLK_4; ctl2.mix = WM8523_MIX_STEREO; wm8523_set_aif_ctrl2(portnum, ctl2); wm8523_dac_ctrl3_t ctl3; ctl3.downramp = WM8523_VOL_DOWN_INSTANT; ctl3.upramp = WM8523_VOL_UP_INSTANT; ctl3.lmute = WM8523_DACL_UNMUTE; ctl3.rmute = WM8523_DACR_UNMUTE; ctl3.dac_zc = WM8523_ZERO_CROSSING_DISABLED; wm8523_set_dac_ctrl3(portnum, ctl3); int res = i2s_clkcalc_init(48000, 16, 2); /* // From: tools/clkcalc 48000 16 2 int pclkdiv = 8; int bitrate = 3; int x = 57; int y = 59; // err = 16.949153 bits/second int bitwidth = 16; int channels = 2; int res = i2s_init(pclkdiv, bitrate, x, y, bitwidth, channels); */ // if(res) error(); (void)res; i2s_set_tx_mode_control(CLK_TX_SRC, 0, 1); /* //////// I2S #if 1 // From: tools/clkcalc 48000 16 2 int pclkdiv = 8; int bitrate = 1; int x = 29; int y = 59; // err = 16.949153 bits/second int bitwidth = 16; int channels = 2; int res = i2s_init(pclkdiv, bitrate, x, y, bitwidth, channels); if(res) error(); // I2SInit(); i2s_set_tx_mode_control(CLK_TX_SRC, 0, 1); // Set up IRQ uint32_t *i2sirq = (uint32_t*)0x400A801C; *i2sirq &= ~(0b1111 << 16); // Reset tx irq depth int depth = 2; *i2sirq |= ((depth & 0b1111) << 16); // Set tx irq depth *i2sirq |= 0b1 << 1; // Enable TX IRQ, pg. 479 table 412 i2s_tx_start(); #else // From: tools/clkcalc 48000 16 2 int pclkdiv = 8; int bitrate = 1; int x = 29; int y = 59; // err = 16.949153 bits/second int bitwidth = 16; int channels = 2; int res = i2s_init(pclkdiv, bitrate, x, y, bitwidth, channels); if(res) error(); // Set up IRQ uint32_t *i2sirq = (uint32_t*)0x400A801C; *i2sirq |= 0b1 << 0; // Enable IRQ, pg. 479 table 412 *i2sirq &= ~(0b1111 << 16); // Reset tx irq depth int depth = 2; *i2sirq |= ((depth & 0b1111) << 16); // Set tx irq depth NVIC_EnableIRQ(I2S_IRQn); // I2S_IRQn = 27; i2s_tx_reset_fifo(); i2s_tx_start(); #endif */ i2s_tx_start(); // int32_t *fifo = (int32_t*)0x400A8008; unsigned int cnt = 0; while(1) { while(i2s_get_state_tx_level() > 7) {} // i2s_write_pcm_16_stereo(cnt, cnt); // *fifo = cnt; // *fifo = (cnt / 40) | (cnt / 40) << 16; if(cnt < size) { i2s_write_pcm_16_stereo((samples[cnt] - 485) * 10, (samples[cnt] - 485) * 10); } else { // repeat last sample i2s_write_pcm_16_stereo(0, 0); } if(cnt > size * 30) cnt = 0; // if(cnt > 64000) cnt = 0; cnt++; } }