static int __init NCR_D700_init(void) { #ifdef MODULE if (NCR_D700) param_setup(NCR_D700); #endif return mca_register_driver(&NCR_D700_driver); }
static int __init lasi700_detect(Scsi_Host_Template *tpnt) { host_tpnt = tpnt; #ifdef MODULE if(lasi700) param_setup(lasi700); #endif register_parisc_driver(&lasi700_driver); return (host_count != 0); }
void module_init(void) { int i, j; // init module/param descriptor // intialize local data at start of SDRAM data = (wavesData * )SDRAM_ADDRESS; // initialize moduleData superclass for core routines gModuleData = &(data->super); strcpy(gModuleData->name, "aleph-waves"); gModuleData->paramData = data->mParamData; gModuleData->numParams = eParamNumParams; for(i=0; i<WAVES_NVOICES; i++) { fract32 tmp = FRACT32_MAX >> 2; osc_init( &(voice[i].osc), &wavtab, SAMPLERATE ); filter_svf_init( &(voice[i].svf) ); voice[i].amp = tmp; slew_init((voice[i].ampSlew), 0, 0, 0 ); slew_init((voice[i].cutSlew), 0, 0, 0 ); slew_init((voice[i].rqSlew), 0, 0, 0 ); slew_init((voice[i].wetSlew), 0, 0, 0 ); slew_init((voice[i].drySlew), 0, 0, 0 ); voice[i].pmDelWrIdx = 0; voice[i].pmDelRdIdx = 0; // voice[i].pmDelBuf = data->pmDelBuf[i]; } for(i=0; i<4; i++) { for(j=0; j<4; j++) { patch_adc_dac[i][j] = &trash; } } for(i=0; i<2; i++) { for(j=0; j<4; j++) { patch_osc_dac[i][j] = &trash; } } // cv /* slew_init(cvSlew[0] , 0, 0, 0 ); */ /* slew_init(cvSlew[1] , 0, 0, 0 ); */ /* slew_init(cvSlew[2] , 0, 0, 0 ); */ /* slew_init(cvSlew[3] , 0, 0, 0 ); */ // cv filter_1p_lo_init( &(cvSlew[0]), 0xf ); filter_1p_lo_init( &(cvSlew[1]), 0xf ); filter_1p_lo_init( &(cvSlew[2]), 0xf ); filter_1p_lo_init( &(cvSlew[3]), 0xf ); // set parameters to defaults /// slew first param_setup( eParamHz1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamHz0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamPm10Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamPm01Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWm10Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWm01Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWave1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWave0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamAmp1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamAmp0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamCut0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamCut1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamRq0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamRq1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWet0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWet1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamDry0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamDry1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamHz1, 220 << 16 ); param_setup( eParamHz0, 330 << 16 ); param_setup( eParamTune1, FIX16_ONE ); param_setup( eParamTune0, FIX16_ONE ); param_setup( eParamWave1, 0 ); param_setup( eParamWave0, 0 ); param_setup( eParamAmp1, PARAM_AMP_6 ); param_setup( eParamAmp0, PARAM_AMP_6 ); param_setup( eParamPm10, 0 ); param_setup( eParamPm01, 0 ); param_setup( eParamWm10, 0 ); param_setup( eParamWm01, 0 ); /* param_setup( eParamBl1, 0 ); */ /* param_setup( eParamBl0, 0 ); */ param_setup( eParam_cut1, PARAM_CUT_DEFAULT); param_setup( eParam_rq1, PARAM_RQ_DEFAULT); param_setup( eParam_mode1, 0); param_setup( eParam_fwet1, PARAM_AMP_6 ); param_setup( eParam_fdry1, PARAM_AMP_6 ); param_setup( eParam_cut0, PARAM_CUT_DEFAULT ); param_setup( eParam_rq0, PARAM_RQ_DEFAULT ); param_setup( eParam_mode0, 0); param_setup( eParam_fwet0, PARAM_AMP_6 ); param_setup( eParam_fdry0, PARAM_AMP_6 ); param_setup( eParam_adc0_dac0, 1 ); param_setup( eParam_adc1_dac1, 1 ); param_setup( eParam_adc2_dac2, 1 ); param_setup( eParam_adc3_dac3, 1 ); param_setup( eParam_osc0_dac0, 1 ); param_setup( eParam_osc0_dac1, 1 ); param_setup( eParam_osc0_dac2, 1 ); param_setup( eParam_osc0_dac3, 1 ); param_setup( eParam_osc1_dac0, 1 ); param_setup( eParam_osc1_dac1, 1 ); param_setup( eParam_osc1_dac2, 1 ); param_setup( eParam_osc1_dac3, 1 ); param_setup( eParam_cvVal0, FRACT32_MAX >> 1 ); param_setup( eParam_cvVal1, FRACT32_MAX >> 1 ); param_setup( eParam_cvVal2, FRACT32_MAX >> 1 ); param_setup( eParam_cvVal3, FRACT32_MAX >> 1 ); param_setup( eParam_cvSlew0, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew1, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew2, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew3, PARAM_SLEW_DEFAULT ); }
void module_init(void) { u32 i; // init module/param descriptor // intialize local data at start of SDRAM data = (wavesData * )SDRAM_ADDRESS; // initialize moduleData superclass for core routines gModuleData = &(data->super); strcpy(gModuleData->name, "aleph-waves"); gModuleData->paramDesc = data->mParamDesc; gModuleData->paramData = data->mParamData; gModuleData->numParams = eParamNumParams; // fill param values with minima as default for(i=0; i<eParamNumParams; ++i) { gModuleData->paramData[i].value = gModuleData->paramDesc[i].min; } for(i=0; i<WAVES_NVOICES; i++) { fract32 tmp = FRACT32_MAX >> 2; osc_init( &(voice[i].osc), &wavtab, SAMPLERATE ); filter_svf_init( &(voice[i].svf) ); voice[i].amp = tmp; filter_1p_lo_init(&(voice[i].ampSlew), 0xf); filter_1p_lo_init(&(voice[i].cutSlew), 0xf); filter_1p_lo_init(&(voice[i].rqSlew), 0xf); } // oscAmp1 = oscAmp0 = INT32_MAX >> 2; /* osc_set_hz( &osc1, fix16_from_int(220) ); */ /* osc_set_hz( &osc0, fix16_from_int(330) ); */ /* ioAmp0 = FR32_MAX; */ /* ioAmp1 = FR32_MAX; */ /* ioAmp2 = FR32_MAX; */ /* ioAmp3 = FR32_MAX; */ // filters /* filter_svf_init(&(svf1)); */ /* filter_svf_init(&(svf0)); */ // allocate smoothers // amp1Lp = (filter_1p_lo*)malloc(sizeof(filter_1p_lo)); // filter_1p_lo_init( amp1Lp, oscAmp1 ); /* amp0Lp = (filter_1p_lo*)malloc(sizeof(filter_1p_lo)); */ /* filter_1p_lo_init( amp0Lp, oscAmp0 ); */ // dac filter_1p_lo_init( &(cvSlew[0]), 0xf ); filter_1p_lo_init( &(cvSlew[1]), 0xf ); filter_1p_lo_init( &(cvSlew[2]), 0xf ); filter_1p_lo_init( &(cvSlew[3]), 0xf ); // write descriptors /// FIXME: eliminate and move offline ! fill_param_desc(); // set parameters to defaults param_setup( eParamHz1, 220 << 16 ); param_setup( eParamHz0, 330 << 16 ); param_setup( eParamTune1, FIX16_ONE ); param_setup( eParamTune0, FIX16_ONE ); param_setup( eParamWave1, 0 ); param_setup( eParamWave0, 0 ); param_setup( eParamAmp1, PARAM_AMP_6 ); param_setup( eParamAmp0, PARAM_AMP_6 ); param_setup( eParamPm10, 0 ); param_setup( eParamPm01, 0 ); param_setup( eParamWm10, 0 ); param_setup( eParamWm01, 0 ); param_setup( eParamBl1, 0 ); param_setup( eParamBl0, 0 ); param_setup( eParam_cut1, PARAM_CUT_DEFAULT); param_setup( eParam_rq1, PARAM_RQ_DEFAULT); param_setup( eParam_low1, PARAM_AMP_6 ); param_setup( eParam_high1, 0 ); param_setup( eParam_band1, 0 ); param_setup( eParam_notch1, 0 ); param_setup( eParam_fwet1, PARAM_AMP_6 ); param_setup( eParam_fdry1, PARAM_AMP_6 ); param_setup( eParam_cut0, PARAM_CUT_DEFAULT ); param_setup( eParam_rq0, PARAM_RQ_DEFAULT ); param_setup( eParam_low0, FRACT32_MAX >> 1 ); param_setup( eParam_high0, 0 ); param_setup( eParam_band0, 0 ); param_setup( eParam_notch0, 0 ); param_setup( eParam_fwet0, PARAM_AMP_6 ); param_setup( eParam_fdry0, PARAM_AMP_6 ); param_setup( eParamHz1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamHz0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamPm10Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamPm01Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWm10Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWm01Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWave1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamWave0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamAmp1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamAmp0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamCut0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamCut1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamRq0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamRq1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParam_adc0_dac0, FRACT32_MAX ); param_setup( eParam_adc1_dac1, FRACT32_MAX ); param_setup( eParam_adc2_dac2, FRACT32_MAX ); param_setup( eParam_adc3_dac3, FRACT32_MAX ); param_setup( eParam_osc0_dac0, FRACT32_MAX ); param_setup( eParam_osc0_dac1, FRACT32_MAX ); param_setup( eParam_osc0_dac2, FRACT32_MAX ); param_setup( eParam_osc0_dac3, FRACT32_MAX ); param_setup( eParam_osc1_dac0, FRACT32_MAX ); param_setup( eParam_osc1_dac1, FRACT32_MAX ); param_setup( eParam_osc1_dac2, FRACT32_MAX ); param_setup( eParam_osc1_dac3, FRACT32_MAX ); param_setup( eParam_cvVal0, FRACT32_MAX >> 1 ); param_setup( eParam_cvVal1, FRACT32_MAX >> 1 ); param_setup( eParam_cvVal2, FRACT32_MAX >> 1 ); param_setup( eParam_cvVal3, FRACT32_MAX >> 1 ); param_setup( eParam_cvSlew0, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew1, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew2, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew3, PARAM_SLEW_DEFAULT ); }
/* Old boot param syntax support */ void sim710_setup(char *str, int *ints) { param_setup(str); }
int main() { int i; init_platform(); print("--Starting...--\n\r"); /*for (i = 0; i < n_memory_ranges; i++) { test_memory_range(&memory_ranges[i]); }*/ int Status; /* Initialize the GPIO driver. If an error occurs then exit */ Status = XGpio_Initialize(&gpio_btn, XPAR_GPIO_BTN_DEVICE_ID); if (Status != XST_SUCCESS) { return XST_FAILURE; } /* Initialize the GPIO driver. If an error occurs then exit */ Status = XGpio_Initialize(&gpio_led, XPAR_GPIO_LED_DEVICE_ID); if (Status != XST_SUCCESS) { return XST_FAILURE; } /* * Perform a self-test on the GPIO. This is a minimal test and only * verifies that there is not any bus error when reading the data * register */ XGpio_SelfTest(&gpio_btn); XGpio_SelfTest(&gpio_led); XGpio_SetDataDirection(&gpio_btn, XGPIO_IR_CH1_MASK, 0x1); XGpio_SetDataDirection(&gpio_led, XGPIO_IR_CH1_MASK, 0x0); XGpio_DiscreteClear(&gpio_led, XGPIO_IR_CH1_MASK, 0xffff); param_setup(); XMcml_Initialize(&mcml, XPAR_MCML_0_DEVICE_ID); print("--Starting Kernel--\n\r"); XMcml_Start(&mcml); //cleanup_platform(); while (1) { if(XMcml_IsDone(&mcml)) break; } print("NOTE: MCML kernel is done.\n\r"); XGpio_DiscreteSet(&gpio_led, XGPIO_IR_CH1_MASK, 0x1); float * ar_z = (float *)memory_ranges[ARZ_CTRL].base; for(i=0; i< 10000; i++) { int whole, thousandths; float fval = *(ar_z++); whole = fval; thousandths = (fval - whole) * 1000; if(i % 100 == 0) xil_printf("\n\r"); xil_printf("%d.%3d *", whole, thousandths); } XGpio_DiscreteSet(&gpio_led, XGPIO_IR_CH1_MASK, 0x3); print("--DONE-- \n\r"); return 0; }
void module_init(void) { u8 i; u32 j; // init module/params pLinesData = (linesData*)SDRAM_ADDRESS; gModuleData = &(pLinesData->super); strcpy(gModuleData->name, "aleph-lines"); gModuleData->paramData = (ParamData*)pLinesData->mParamData; gModuleData->numParams = eParamNumParams; for(i=0; i<NLINES; i++) { delayFadeN_init(&(lines[i]), pLinesData->audioBuffer[i], LINES_BUF_FRAMES); filter_svf_init(&(svf[i])); filter_1p_lo_init(&(svfCutSlew[i]), 0x3fffffff); filter_1p_lo_init(&(svfRqSlew[i]), 0x3fffffff); filter_ramp_tog_init(&(lpFadeRd[i]), 0); filter_ramp_tog_init(&(lpFadeWr[i]), 0); /* // we really need to zero everything to avoid horrible noise at boot... */ /* for(j=0; j<LINES_BUF_FRAMES; ++j) { */ /* pLinesData->audioBuffer[i][j] = 0; */ /* } */ // memset(pLinesData->audioBuffer[i], 0, LINES_BUF_FRAMES * 4); // however, it is causing crashes or hangs here, for some damn reason. // at least zero the end of the buffer /* for(j=LINES_BUF_FRAMES - 100000; j < LINES_BUF_FRAMES - 1; ++j) { */ /* pLinesData->audioBuffer[i][j] = 0x00000000; */ /* } */ } // dac filter_1p_lo_init( &(cvSlew[0]), 0xf ); filter_1p_lo_init( &(cvSlew[1]), 0xf ); filter_1p_lo_init( &(cvSlew[2]), 0xf ); filter_1p_lo_init( &(cvSlew[3]), 0xf ); /// setup params with intial values param_setup( eParamFade0 , 0x100000 ); param_setup( eParamFade1 , 0x100000 ); param_setup( eParam_loop0, PARAM_SECONDS_MAX ); param_setup( eParam_rMul0, 0x10000 ); param_setup( eParam_rDiv0, 0x10000 ); param_setup( eParam_write0, FRACT32_MAX ); param_setup( eParam_pre0, 0 ); param_setup( eParam_pos_write0, 0 ); param_setup( eParam_pos_read0, 0 ); param_setup( eParam_delay0, 0x4000 ); param_setup( eParam_run_read0, 1 ); param_setup( eParam_run_write0, 1 ); param_setup( eParam_loop1, PARAM_SECONDS_MAX ); param_setup( eParam_rMul1, 0x10000 ); param_setup( eParam_rDiv1, 0x10000 ); param_setup( eParam_write1, FRACT32_MAX ); param_setup( eParam_pre1, 0 ); param_setup( eParam_pos_write1, 0 ); param_setup( eParam_pos_read1, 0 ); param_setup( eParam_delay1, 0x4000 ); param_setup( eParam_run_read1, 1 ); param_setup( eParam_run_write1, 1 ); param_setup( eParam_del1_dac0, PARAM_AMP_12 ); param_setup( eParam_del1_dac1, PARAM_AMP_6 ); param_setup( eParam_del1_dac2, PARAM_AMP_12 ); param_setup( eParam_del1_dac3, PARAM_AMP_6 ); param_setup( eParam_adc0_dac0, PARAM_AMP_12 ); param_setup( eParam_adc0_dac1, PARAM_AMP_12 ); param_setup( eParam_adc0_dac2, PARAM_AMP_12 ); param_setup( eParam_adc0_dac3, PARAM_AMP_12 ); param_setup( eParam_adc1_dac0, PARAM_AMP_12 ); param_setup( eParam_adc1_dac1, PARAM_AMP_12 ); param_setup( eParam_adc1_dac2, PARAM_AMP_12 ); param_setup( eParam_adc1_dac3, PARAM_AMP_12 ); param_setup( eParam_adc2_dac0, PARAM_AMP_12 ); param_setup( eParam_adc2_dac1, PARAM_AMP_12 ); param_setup( eParam_adc2_dac2, PARAM_AMP_12 ); param_setup( eParam_adc2_dac3, PARAM_AMP_12 ); param_setup( eParam_adc3_dac0, PARAM_AMP_12 ); param_setup( eParam_adc3_dac1, PARAM_AMP_12 ); param_setup( eParam_adc3_dac2, PARAM_AMP_12 ); param_setup( eParam_adc3_dac3, PARAM_AMP_12 ); param_setup( eParam_freq1, PARAM_CUT_DEFAULT); param_setup( eParam_rq1, PARAM_RQ_DEFAULT); param_setup( eParam_low1, PARAM_AMP_6 ); param_setup( eParam_high1, 0 ); param_setup( eParam_band1, 0 ); param_setup( eParam_notch1, 0 ); param_setup( eParam_fwet1, PARAM_AMP_6 ); param_setup( eParam_fdry1, PARAM_AMP_6 ); param_setup( eParam_freq0, PARAM_CUT_DEFAULT ); param_setup( eParam_rq0, PARAM_RQ_DEFAULT ); param_setup( eParam_low0, FRACT32_MAX >> 1 ); param_setup( eParam_high0, 0 ); param_setup( eParam_band0, 0 ); param_setup( eParam_notch0, 0 ); param_setup( eParam_fwet0, PARAM_AMP_6 ); param_setup( eParam_fdry0, PARAM_AMP_6 ); param_setup( eParamCut0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamCut1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamRq0Slew, PARAM_SLEW_DEFAULT ); param_setup( eParamRq1Slew, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew0, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew1, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew2, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvSlew3, PARAM_SLEW_DEFAULT ); param_setup( eParam_cvVal0, PARAM_CV_VAL_DEFAULT ); param_setup( eParam_cvVal1, PARAM_CV_VAL_DEFAULT ); param_setup( eParam_cvVal2, PARAM_CV_VAL_DEFAULT ); param_setup( eParam_cvVal3, PARAM_CV_VAL_DEFAULT ); }