old demo that i want to try in mbed studio
Dependencies: mbed SDFileSystem_Copy_of_mbed_version I2S
NotchingDemo.cpp
- Committer:
- roryhand
- Date:
- 2019-09-07
- Revision:
- 42:f481dcabdc34
- Parent:
- 41:5dca752e6c40
- Child:
- 43:890d76ffe627
File content as of revision 42:f481dcabdc34:
// 24/03/2018 update - I appear to be able to address the device and write something, as I am getting an ACK returned from the i2c write() function. //however if i use the write function with 4 arguments (as opposed to just 1 argument) then it doesnt work //only works with the 1 argument version!!! //THIS VERSION WORKED, CHANGED SOME THINGS, THEN CHANGED THEM BACK. NOW IT NO LONGER WORKS!!!! #include "mbed.h" #include "math.h" #include "I2S.h" #include "SDFileSystem.h" #include "wm8731_Config_setup.h" #include "WOLFSON_config_consts.h" #include <string> #include <stdlib.h> #include <fstream> #include <iostream> #include <vector> #include <string> #define sample_freq 11025 #pragma import __use_two_region_memory DigitalOut myled(LED1); DigitalOut led2(LED2); DigitalOut led3(LED3); DigitalIn NotchUp(p16); DigitalIn NotchDown(p17);//check the pin!!! Dont know if this will actually work... InterruptIn Horn(p16); Ticker sampletick; Ticker fileswitch_tick; Ticker BellTick; Ticker EdTick; Ticker TickFadeOut; Ticker TestTick; Timer t; Timer t2; Timer NotchTimer; Timer timer_open; Serial pc(USBTX, USBRX); // tx, rx //FOR DEBUGGING PROGRAM USING GNU SCREEN DigitalOut cs(p8); I2S i2s(I2S_TRANSMIT, p5, p6, p7); SDFileSystem sd(p11, p12, p13, p8, "sd"); // the new pinout that i am using /*struct A { int data; B b; };*/ class classFade { public: float powerval; float FadeIteration; float DecayFactor; float Denom; float FadeCoeff; float Natural_Exp; int LengthSecs; int Length; //member Functions float FadeOut(void) { powerval = -FadeIteration/Denom; if (FadeIteration >=Length) { FadeCoeff = 0; } else { FadeCoeff = (Length - FadeIteration)/Length; } FadeIteration = FadeIteration + 1; return FadeCoeff; } float FadeIn(void) { powerval = FadeIteration/Denom; if (FadeIteration >=Length) { FadeCoeff = 1; } else { FadeCoeff = FadeIteration/Length; } FadeIteration = FadeIteration + 1; return FadeCoeff; } }; classFade IdleFadeOut; classFade N2FadeIn; classFade NotchFadeOut; classFade NotchFadeIn; typedef struct uFMT_STRUCT { short comp_code; short num_channels; unsigned sample_rate; unsigned avg_Bps; short block_align; short sig_bps; } FMT_STRUCT; typedef struct uNotch_STRUCT { short Notch; short NotchTransUp; short NotchTransDown; short NotchDirection; } Notch_STRUCT; typedef struct uDATA_STRUCT { unsigned subchunk2_ID; unsigned subchunk2_size; char * data_buf; } DATA_STRUCT; typedef struct uWAV_FILE_STRUCT { FILE *WavFile; int id_number; char *slice_buf; int num_slices; FMT_STRUCT FileFormat; DATA_STRUCT FileData; } WAV_FILE_STRUCT; /*typedef struct uWAV_FILE_STRUCT{ FILE* WavFile; }WAV_FILE_STRUCT;*/ class classSoundFile { public: //add a class constructor WAV_FILE_STRUCT FileInfo; short * data_sptr; string file_location; //classSoundFile(string filename);//this is the constructor //string filename; }; //class constructor; /*classSoundFile::classSoundFile(string filename) { //Declare RootFolder and the directory for the appropriate file. //How we index into filename[] from the outside of this class is another //issue... FileInfo.WavFile = fopen("/sd/mydir/645Engine/Startup.wav","rb"); fseek(FileInfo.WavFile,20,SEEK_SET); fread(&FileInfo.FileFormat,sizeof(FileInfo.FileFormat),1,FileInfo.WavFile); printf("wav_format.sample_rate: %d\n\r",FileInfo.FileFormat.sample_rate); fread(&FileInfo.FileData,sizeof(FileInfo.FileData),1,FileInfo.WavFile); printf("wav_data.subchunk2_size: %d\n\r",FileInfo.FileData.subchunk2_size); FileInfo.slice_buf = ( char *)malloc(FileInfo.FileFormat.block_align); fread(FileInfo.slice_buf,FileInfo.FileFormat.block_align,1,FileInfo.WavFile); //This isnt actually required, its just a test FileInfo.num_slices = FileInfo.FileData.subchunk2_size/FileInfo.FileFormat.block_align; }*/ int notch_flag = 0; int i = 0; int h = 0; short bufflen = 1; int buffer[1]; int AudioFormat, NumChannels, SampleRate, BitsPerSample ; char *slice_buf; short *data_sptr; short *data_sptr_horn; short *data_sptr_IdleN2; short * data_sptr_bell; short * data_sptr_N2; short * data_sptr_Flange; unsigned char *data_bptr; int *data_wptr; unsigned channel; long slice, num_slices; int verbosity = 0; int verbosity2 = 0; int verbosity3 = 0; int verbosity4 = 0; int verbosity5 = 0; int interrupt_condition = 1; int sampling_freq = 11025; const int BufferLen = 2000; short Buffer1[BufferLen]; short Buffer2[BufferLen]; short place_hold1 = 0; short place_hold2 = 0; string FOLDER; string RootFolder = "/sd/mydir/SoundDecoder/"; string filename[25]; classSoundFile Sound[22]; volatile int flag1 = 1; volatile int flag2 = 0; volatile int flag3 = 1; volatile int flag4 = 0; int FLAGBUFF1 = 0; int FLAGBUFF2 = 0; int BellFlag = 0; int BellFlag2 = 0; int FadeFlag = 0; int FileSwitchFlag = 0; short value[1]; FILE *HornWav; FILE *edsheeran_wav; FILE *Startup_wav; FILE *IdleN2Wav; FILE *N2Wav; FILE *BellWav; FILE *FlangeWav; FILE *HeyWav; //long long slice_value; int slice_value[1]; WAV_FILE_STRUCT WavInfo_Horn; WAV_FILE_STRUCT WavInfo_IdleN2; WAV_FILE_STRUCT WavInfo_N2; WAV_FILE_STRUCT WavInfo_Bell; WAV_FILE_STRUCT WavInfo_Flange; WAV_FILE_STRUCT WavInfo_Hey; WAV_FILE_STRUCT WavInfo_N3; WAV_FILE_STRUCT WavInfo_Frustration; Ticker flipper; char * slice_buf_bell; char * slice_buf_ed; char * slice_buf_startup; char * slice_buf_N2; Notch_STRUCT NotchingSet; //test //short *data_sptr_bell = 0; short *data_sptr_ed = 0; short *data_sptr_startup = 0; FILE *StartupWav; FILE *N3Wav; int temp = 0; void flip() { led2 = !led2; } void isr() { if(flag1 == 0) { value[0] = Buffer1[place_hold1]>>4; i2s.write(value,1);//Send next PWM value to amp place_hold1 = place_hold1 + 1; if( (place_hold1 >= BufferLen)) { led2 = !led2; place_hold1 = 0; place_hold2 = 0; flag1 = 1; flag2 = 0; } } else if(flag2 == 0) { value[0] = Buffer2[place_hold2]>>4; i2s.write(value,1);//Send next PWM value to amp place_hold2 = place_hold2 + 1; if( (place_hold2 >= BufferLen) ) { led2 = !led2; place_hold1 = 0; place_hold2 = 0; flag1 = 0; flag2 = 1; FLAGBUFF2 = 0; } } } void horn_sound() { BellFlag = 1; fseek(HornWav,44,SEEK_SET); fseek(BellWav,44,SEEK_SET); fseek(FlangeWav,44,SEEK_SET); fseek(N2Wav,44,SEEK_SET); } void FileSwitch_isr() { FileSwitchFlag = 1; temp = 1; /*FILE* testwav = fopen("/sd/mydir/SoundDecoder_second/05.wav","rb"); if(N3Wav == NULL) { printf("Cannot Open testwav\n\r"); } */ fseek(N3Wav,44,SEEK_SET); // fclose(StartupWav); } void FadeOutIsr() { FadeFlag = 1; fseek(IdleN2Wav,44,SEEK_SET); fseek(N2Wav,44,SEEK_SET); fseek(HornWav,44,SEEK_SET); fseek(FlangeWav,44,SEEK_SET); } /* void filenotch_isr() { if(up) { notch = notch+1; notchtrans_up = notch + 8; } else if(down) { notch = notch-1; notchtrans_down = notch + 15; } notch_flag = 1; } */ classFade FadeDataInitialise(classFade FadeData); //function prototypes WAV_FILE_STRUCT ReadFileInfo(WAV_FILE_STRUCT FileInfo, FILE * wav_file); classSoundFile LoadFileStream(classSoundFile FileInfo, string filename); float FadeOut(void); void Play_WaveFile(FILE * my_wav, WAV_FILE_STRUCT FileInfo); void Play_WaveFileDual(FILE * my_wav, WAV_FILE_STRUCT FileInfo); //void Play_WaveFileLoop(FILE * my_wav, WAV_FILE_STRUCT FileInfo); //*********************INTERRUPT ROUTINE FOR NOTCHING*************************** void NotchUpIsr() { if(1 <= NotchingSet.Notch < 8) { NotchingSet.Notch = NotchingSet.Notch + 1; NotchingSet.NotchTransUp = NotchingSet.Notch + 7; NotchingSet.NotchDirection = 1; FadeDataInitialise(NotchFadeIn); FadeDataInitialise(NotchFadeOut); } } void NotchDownIsr() { if(1 < NotchingSet.Notch <= 8) { NotchingSet.Notch = NotchingSet.Notch - 1; NotchingSet.NotchTransDown = NotchingSet.Notch + 15;; NotchingSet.NotchDirection = 0; FadeDataInitialise(NotchFadeIn); FadeDataInitialise(NotchFadeOut); } } /**********************END OF INTERRUPT ROUTINE FOR NOTCHING*******************/ void Play_WaveFileLoop(classSoundFile Sounds[], Notch_STRUCT NotchingSet); int main() { //std::vector<classSoundFile> v = {Sound1, Sound2, Sound3, Sound4}; /* classSoundFile Sound1,Sound2,Sound3,Sound4,Sound5; Sound1.file_location = '1'; Sound2.file_location = '2'; Sound3.file_location = '3'; Sound4.file_location = '4'; Sound5.file_location = '5'; */ //SoundPlaceHolder.file_location = 'hello'; NotchUp.mode(PullUp); NotchDown.mode(PullUp); WAV_FILE_STRUCT WavInfo_Startup; WAV_FILE_STRUCT WavInfo_Idle; pc.printf("Beginning of program\n"); FILE *IdleWav; char buf[10]; int a = 1; sprintf(buf, "%d", a); string foo( "hello" ); string test( "how are" ); string hello; hello = foo + test; printf("%s\n\r",hello); string RootFolder = "sd/mydir/SoundDecoder_second/"; string folder = RootFolder + "0" + buf + ".wav"; printf("FullFile location: %s\n\r",folder); classSoundFile Sound[22]; string file_names[22]; const char* FileName; /* for(int aaa = 0; aaa < 20; aaa ++) { a = aaa+1; sprintf(buf, "%d", a); Sound[aaa].file_location = RootFolder + "0" + buf + ".wav"; FileName = Sound[aaa].file_location.c_str(); Sound[aaa].FileInfo.WavFile = fopen(FileName,"rb"); if(Sound[aaa].FileInfo.WavFile == NULL) { printf("Cannot Open Sound[%d].FileInfo.WavFile\n\r",aaa); } */ /* printf("FileName: %s\n\r",Sound[aaa].file_location); fclose(Sound[aaa].FileInfo.WavFile); free(Sound[aaa].FileInfo.WavFile); */ //wait(1); // } /* string RootFolder = "sd/mydir/SoundDecoder_second/"; string folder = RootFolder + "01.wav"; printf("Full file location: %s\n\r",folder); */ /* for(int aaa = 0;aaa < 21; aaa ++ ) { folder = RootFolder + "\01.wav";//filename[aaa]; FOLDER = folder.c_str(); Sound[aaa].FileInfo.WavFile = fopen(FOLDER,"rb"); //MyNewWav.WavFile = fopen("/sd/mydir/Startup.wav","rb"); printf("we opened This file %d\n\r",aaa); } */ printf("About to Start ReadFileInfo Operations\n\r"); FILE* mywav1 = fopen("/sd/mydir/SoundDecoder_second/01.wav","rb"); if(mywav1 == NULL) { printf("Cannot Open mywav1\n\r"); } fclose(mywav1); FILE* mywav2 = fopen("/sd/mydir/SoundDecoder_second/02.wav","rb"); if(mywav2 == NULL) { printf("Cannot Open mywav2\n\r"); } fclose(mywav2); FILE* mywav3 = fopen("/sd/mydir/SoundDecoder_second/03.wav","rb"); if(mywav3 == NULL) { printf("Cannot Open mywav3\n\r"); } fclose(mywav3); FILE* mywav4 = fopen("/sd/mydir/SoundDecoder_second/04.wav","rb"); if(mywav4 == NULL) { printf("Cannot Open mywav4\n\r"); } fclose(mywav4); FILE* mywav5 = fopen("/sd/mydir/SoundDecoder_second/05.wav","rb"); if(mywav5 == NULL) { printf("Cannot Open mywav5\n\r"); } fclose(mywav5); FILE* mywav6 = fopen("/sd/mydir/SoundDecoder_second/06.wav","rb"); if(mywav6 == NULL) { printf("Cannot Open mywav6\n\r"); } fclose(mywav6); FILE* mywav7 = fopen("/sd/mydir/SoundDecoder_second/07.wav","rb"); if(mywav7 == NULL) { printf("Cannot Open mywav7\n\r"); } fclose(mywav7); FILE* mywav8 = fopen("/sd/mydir/SoundDecoder_second/08.wav","rb"); if(mywav8 == NULL) { printf("Cannot Open mywav8\n\r"); } fclose(mywav8); FILE* mywav9 = fopen("/sd/mydir/SoundDecoder_second/09.wav","rb"); if(mywav9 == NULL) { printf("Cannot Open mywav9\n\r"); } fclose(mywav9); FILE* mywav10 = fopen("/sd/mydir/SoundDecoder_second/10.wav","rb"); if(mywav10 == NULL) { printf("Cannot Open mywav10\n\r"); } fclose(mywav10); FILE* mywav11= fopen("/sd/mydir/SoundDecoder_second/11.wav","rb"); if(mywav11 == NULL) { printf("Cannot Open mywav11\n\r"); } fclose(mywav11); FILE* mywav12 = fopen("/sd/mydir/SoundDecoder_second/12.wav","rb"); if(mywav12 == NULL) { printf("Cannot Open mywav12\n\r"); } fclose(mywav12); FILE* mywav13 = fopen("/sd/mydir/SoundDecoder_second/13.wav","rb"); if(mywav13 == NULL) { printf("Cannot Open mywav13\n\r"); } fclose(mywav13); FILE* mywav14 = fopen("/sd/mydir/SoundDecoder_second/14.wav","rb"); if(mywav14 == NULL) { printf("Cannot Open mywav14\n\r"); } fclose(mywav14); HeyWav = fopen("/sd/mydir/645Engine/EX_FlangeJoint1_11k_minus12dB.wav","rb"); if(HeyWav == NULL) { printf("Cannot Open HeyWav\n\r"); } N3Wav = fopen("/sd/mydir/SoundDecoder_second/03.wav","rb"); if(N3Wav == NULL) { printf("Cannot Open N3Wav\n\r"); } WavInfo_N3 = ReadFileInfo(WavInfo_N3,N3Wav); fclose(N3Wav); printf("About to Read HeyWav\n\r"); WavInfo_Hey = ReadFileInfo(WavInfo_Hey,HeyWav); printf("Do we even get to this stupid bloody point\n\r"); //Populate our class instances with some data (is there an implicit way to do this?) printf("hello\n\r"); //Set up the wolfson Audio Codec board wm8731_Config_setup(); //i2s audio data transfer code?? i2s.stereomono(I2S_STEREO); i2s.masterslave(I2S_MASTER); led3 = 1; led2 = 1; printf("Hello i2s has starrted!"); i2s.start(); sampletick.attach(&isr,1.0/sampling_freq); //1/16000 fileswitch_tick.attach(&FileSwitch_isr,6.0);//So we can switch between playing file 1 and file 2, including opening and closing timer_open.reset(); timer_open.start(); N3Wav = fopen("/sd/mydir/SoundDecoder_second/03.wav","rb"); if(N3Wav == NULL) { printf("Cannot Open N3Wav\n\r"); } fclose(N3Wav); StartupWav = fopen("/sd/mydir/Startup.wav","rb"); timer_open.reset(); printf("It took %d useconds to open file\n\r",timer_open.read_us()); //const char* folder2 = folder.c_str(); fseek(StartupWav,44,SEEK_SET); timer_open.reset(); timer_open.start(); WavInfo_Startup = ReadFileInfo(WavInfo_Startup,StartupWav); timer_open.stop(); printf("It took %d useconds to Read In File Info\n\r",timer_open.read_us()); printf("about to play wav file\n\r"); Play_WaveFileDual(StartupWav,WavInfo_Startup); printf("finished playing Wav file\n\r"); timer_open.reset(); timer_open.start(); fclose(StartupWav); timer_open.stop(); printf("It took %d useconds to close file\n\r",timer_open.read_us()); /************************************PLAY WAV FILE LOOP*******************/ //Play_WaveFileLoop(Sound, NotchingSet); /************************************END OF PLAY WAV FILE LOOP*************/ fseek(IdleN2Wav,44,SEEK_SET);//reset for use in the Loop code slice = 0; fseek(IdleWav,44,SEEK_SET); NotchingSet.Notch = 1; //Play_WaveFileLoop(IdleWav, WavInfo_Idle); i2s.stop(); } WAV_FILE_STRUCT ReadFileInfo(WAV_FILE_STRUCT FileInfo, FILE * wav_file) { fseek(wav_file,20,SEEK_SET); printf("We have just seeked through this file\n\r"); fread(&FileInfo.FileFormat,sizeof(FileInfo.FileFormat),1,wav_file); //printf("wav_format.sample_rate: %d\n\r",FileInfo.FileFormat.sample_rate); fread(&FileInfo.FileData,sizeof(FileInfo.FileData),1,wav_file); //printf("wav_data.subchunk2_size: %d\n\r",FileInfo.FileData.subchunk2_size); FileInfo.slice_buf = ( char *)malloc(FileInfo.FileFormat.block_align); fread(FileInfo.slice_buf,FileInfo.FileFormat.block_align,1,wav_file); //This isnt actually required, its just a test FileInfo.num_slices = FileInfo.FileData.subchunk2_size/FileInfo.FileFormat.block_align; //printf("Number of Slices: %d\n\r",FileInfo.num_slices); return FileInfo; } classSoundFile LoadFileStream(classSoundFile Sound, string filename) { //Declare RootFolder and the directory for the appropriate file. //How we index into filename[] from the outside of this class is another //issue... //printf("FileName: %s\n\r",filename); //string RootFolder = "/sd/mydir/SoundDecoder/"; //string Directory = RootFolder + "01.wav";// + filename[0]; //printf("%s\n\r",Directory); //const char* DirectoryChar = Directory.c_str(); //Sound.FileInfo.WavFile = fopen(DirectoryChar,"rb"); Sound.FileInfo.WavFile = fopen("/sd/mydir/645Engine/Startup.wav","rb"); fseek(Sound.FileInfo.WavFile,20,SEEK_SET); fread(&Sound.FileInfo.FileFormat,sizeof(Sound.FileInfo.FileFormat),1,Sound.FileInfo.WavFile); printf("wav_format.sample_rate: %d\n\r",Sound.FileInfo.FileFormat.sample_rate); fread(&Sound.FileInfo.FileData,sizeof(Sound.FileInfo.FileData),1,Sound.FileInfo.WavFile); printf("wav_data.subchunk2_size: %d\n\r",Sound.FileInfo.FileData.subchunk2_size); Sound.FileInfo.slice_buf = ( char *)malloc(Sound.FileInfo.FileFormat.block_align); fread(Sound.FileInfo.slice_buf,Sound.FileInfo.FileFormat.block_align,1,Sound.FileInfo.WavFile); //This isnt actually required, its just a test Sound.FileInfo.num_slices = Sound.FileInfo.FileData.subchunk2_size/Sound.FileInfo.FileFormat.block_align; printf("Number of Slices: %d\n\r",Sound.FileInfo.num_slices); return Sound; } classFade FadeDataInitialise(classFade FadeData) { FadeData.DecayFactor = 1.3; FadeData.FadeIteration = 1; //FadeData.Denom = 11025*FadeData.DecayFactor; FadeData.Denom = 11025*FadeData.DecayFactor; FadeData.Natural_Exp = 2.7183; FadeData.Length = 11025*FadeData.LengthSecs; //FadeData.Natural_Exp = 2.7; return FadeData; } //Playing Files Code /*float FadeIn(void) { powervalFadeIn = FadeIterationIn/denom; FadeCoeffFadeIn }*/ /*float FadeOut(void) { powerval = -FadeIteration/denom; FadeCoeff = pow(natural_exp,powerval); FadeIteration = FadeIteration + 1; return FadeCoeff; }*/ void Play_WaveFile(FILE * my_wav, WAV_FILE_STRUCT FileInfo) { while(slice<FileInfo.num_slices) { fread(FileInfo.slice_buf,FileInfo.FileFormat.block_align,1,my_wav); data_sptr=(short *)FileInfo.slice_buf; // 16 bit samples for (channel=0; channel<FileInfo.FileFormat.num_channels; channel++) { if(flag1 == 1) { Buffer1[place_hold1] = data_sptr[channel]; place_hold1 = place_hold1 + 1; if(place_hold1 >= BufferLen) { while(1) { if(flag1 == 0) { break; } } } } else if(flag2 == 1) { Buffer2[place_hold2] = data_sptr[channel]; place_hold2 = place_hold2 + 1; if(place_hold2 >= BufferLen) { while(1) { if(flag2 == 0) { break; } } } } } slice = slice + 1; } } void Play_WaveFileDual(FILE * my_wav, WAV_FILE_STRUCT FileInfo) { while(slice<FileInfo.num_slices) { if(FileSwitchFlag == 1) { if(temp == 1) { printf("Does it go to this point\n\r"); N3Wav = fopen("/sd/mydir/SoundDecoder_second/03.wav","rb"); if(N3Wav == NULL) { printf("Cannot Open testwav\n\r"); } fclose(StartupWav); temp = 0; } fread(WavInfo_N3.slice_buf,WavInfo_N3.FileFormat.block_align,1,N3Wav); data_sptr=(short*)WavInfo_N3.slice_buf; } else { fread(FileInfo.slice_buf,FileInfo.FileFormat.block_align,1,my_wav); data_sptr=(short *)FileInfo.slice_buf; // 16 bit samples } for (channel=0; channel<FileInfo.FileFormat.num_channels; channel++) { if(flag1 == 1) { Buffer1[place_hold1] = data_sptr[channel]; place_hold1 = place_hold1 + 1; if(place_hold1 >= BufferLen) { while(1) { if(flag1 == 0) { break; } } } } else if(flag2 == 1) { Buffer2[place_hold2] = data_sptr[channel]; place_hold2 = place_hold2 + 1; if(place_hold2 >= BufferLen) { while(1) { if(flag2 == 0) { break; } } } } } slice = slice + 1; } } //***************************************************************************// /* void Play_WaveFileNotchTest(FILE * my_wav, WAV_FILE_STRUCT FileInfo) { while(slice<FileInfo.num_slices) { if(notch_flag == 1) { if(temp == 1) { //printf("Does it go to this point\n\r"); SoundFile[notch].FileInfo.WavFile = fopen(Sound[aaa].file_location,"rb"); if(SoundFile[notch].FileInfo.WavFile == NULL) { printf("Cannot Open testwav\n\r"); } fclose(StartupWav); temp = 0; } fread(WavInfo_N3.slice_buf,WavInfo_N3.FileFormat.block_align,1,N3Wav); data_sptr=(short*)WavInfo_N3.slice_buf; } else { fread(FileInfo.slice_buf,FileInfo.FileFormat.block_align,1,my_wav); data_sptr=(short *)FileInfo.slice_buf; // 16 bit samples } for (channel=0; channel<FileInfo.FileFormat.num_channels; channel++) { if(flag1 == 1) { Buffer1[place_hold1] = data_sptr[channel]; place_hold1 = place_hold1 + 1; if(place_hold1 >= BufferLen) { while(1) { if(flag1 == 0) { break; } } } } else if(flag2 == 1) { Buffer2[place_hold2] = data_sptr[channel]; place_hold2 = place_hold2 + 1; if(place_hold2 >= BufferLen) { while(1) { if(flag2 == 0) { break; } } } } } slice = slice + 1; } } */ //**************************************************************************// //void Play_WaveFileLoop(FILE * my_wav, WAV_FILE_STRUCT FileInfo)//(classSoundFile Sounds) void Play_WaveFileLoop(classSoundFile Sounds[], Notch_STRUCT NotchingSet) { while(1) { //might have to change this to a while(1) loop? //New format!! This should be (roughly) the way that this is done, with the new structures and classes ////fread(Sound[Notch].FileData.slice_buf,Sound[Notch].FileFormat.block_align,1,Sound[notch].WavFile); //data_sptr=(short *)Sound[Notch].FileInfo.slice_buf; if( slice == (Sounds[NotchingSet.Notch].FileInfo.num_slices-1) ) { slice = 0; fseek(Sounds[NotchingSet.Notch].FileInfo.WavFile,44,SEEK_SET); } //fread(FileInfo.slice_buf,FileInfo.FileFormat.block_align,1,my_wav); data_sptr=(short *)Sounds[NotchingSet.Notch].FileInfo.slice_buf; // 16 bit samples //make sure we are reading in the correct "notch" here if(FadeFlag) { if(feof(Sounds[NotchingSet.Notch].FileInfo.WavFile)) { fseek(Sounds[NotchingSet.Notch].FileInfo.WavFile,44,SEEK_SET); } //Read in data for current (i.e. now the previous notch, according to the index!!) //We might not need this code here...as its probably done somewhere else?? fread(Sounds[NotchingSet.Notch-1].FileInfo.slice_buf,Sounds[NotchingSet.Notch-1].FileInfo.FileFormat.block_align,1,Sounds[NotchingSet.Notch-1].FileInfo.WavFile); Sounds[NotchingSet.Notch-1].data_sptr = (short *)Sounds[NotchingSet.Notch-1].FileInfo.slice_buf; NotchFadeOut.FadeCoeff = NotchFadeOut.FadeOut();//compute new FadeOut Coeff value //Read in the notch transition file for transitioning up fread(Sounds[NotchingSet.NotchTransUp].FileInfo.slice_buf,Sounds[NotchingSet.NotchTransUp].FileInfo.FileFormat.block_align,1,Sounds[NotchingSet.NotchTransUp].FileInfo.WavFile); Sounds[NotchingSet.NotchTransUp].data_sptr = (short*)Sounds[NotchingSet.NotchTransUp].FileInfo.slice_buf; if( ((Sounds[NotchingSet.NotchTransUp].FileInfo.FileData.subchunk2_size) - NotchFadeIn.Length - 2*11025) <= (ftell(Sounds[NotchingSet.NotchTransUp].FileInfo.WavFile) + 44)) //if( (WavInfo_IdleN2.FileData.subchunk2_size)/8 <=ftell(IdleN2Wav) ) { NotchFadeIn.FadeCoeff = NotchFadeIn.FadeIn(); //Read In the next Notch fread(Sounds[NotchingSet.Notch].FileInfo.slice_buf,Sounds[NotchingSet.Notch].FileInfo.FileFormat.block_align,1,Sounds[NotchingSet.Notch].FileInfo.WavFile); Sounds[NotchingSet.Notch].data_sptr = (short *)Sounds[NotchingSet.Notch].FileInfo.slice_buf; if( (ftell(Sounds[NotchingSet.NotchTransUp].FileInfo.WavFile) + 44) >= Sounds[NotchingSet.NotchTransUp].FileInfo.FileData.subchunk2_size ) { //need to explicitly test if this notation/syntax works for pointers.... *Sounds[NotchingSet.Notch].data_sptr = *Sounds[NotchingSet.Notch].data_sptr*NotchFadeIn.FadeCoeff; } else { *Sounds[NotchingSet.Notch-1].data_sptr = *Sounds[NotchingSet.Notch - 1].data_sptr*NotchFadeOut.FadeCoeff + *Sounds[NotchingSet.NotchTransUp].data_sptr + *Sounds[NotchingSet.Notch].data_sptr*NotchFadeIn.FadeCoeff;// + *data_sptr_N2; } } else { *Sounds[NotchingSet.Notch-1].data_sptr = *Sounds[NotchingSet.Notch-1].data_sptr*NotchFadeOut.FadeCoeff + *Sounds[NotchingSet.NotchTransUp].data_sptr; } } /********************END OF DATA ASSIGNMENT SECTION*************************************************/ for (channel=0; channel<Sounds[NotchingSet.Notch].FileInfo.FileFormat.num_channels; channel++) { switch (Sounds[NotchingSet.Notch].FileInfo.FileFormat.sig_bps) { case 16: if(flag1 == 1) { Buffer1[place_hold1] = Sounds[NotchingSet.Notch].data_sptr[channel]; place_hold1 = place_hold1 + 1; if(place_hold1 >= BufferLen) { while(1) { if(flag1 == 0) { break; }//if(flag1 == 0) }//while(1) }//if(place_hold1 > = BufferLen) } else if(flag2 == 1) { Buffer2[place_hold2] = Sounds[NotchingSet.Notch].data_sptr[channel]; place_hold2 = place_hold2 + 1; if(place_hold2 >= BufferLen) { while(1) { if(flag2 == 0) { break; } } } } } } slice = slice + 1; } }