ref: bdcb1f3a3ec75a473d495b8e39afbcb6edbf821f
dir: /src/Sound.cpp/
// Some of the original source code for this file can be found here: // https://github.com/shbow/organya/blob/master/source/Sound.cpp /* TODO - Code style Pixel's code was *extremely* Windows-centric, to the point of using things like ZeroMemory and LPCSTR instead of standard things like memset and const char*. For now, the decompilation is accurate despite not using these since they're just macros that evaluate to the portable equivalents. */ #include "Sound.h" #include <stddef.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <string> #include "WindowsWrapper.h" #include "Backends/Audio.h" #include "Main.h" #include "Organya.h" #include "PixTone.h" #include "Resource.h" BOOL audio_backend_initialised; AudioBackend_Sound *lpSECONDARYBUFFER[SE_MAX]; // DirectSoundの開始 (Starting DirectSound) BOOL InitDirectSound(void) { int i; audio_backend_initialised = AudioBackend_Init(); if (!audio_backend_initialised) { #ifndef FIX_BUGS // This makes absolutely no sense here StartOrganya("Org/Wave.dat"); #endif return FALSE; } for (i = 0; i < SE_MAX; i++) lpSECONDARYBUFFER[i] = NULL; StartOrganya("Org/Wave.dat"); return TRUE; } // DirectSoundの終了 (Exit DirectSound) void EndDirectSound(void) { int i; if (!audio_backend_initialised) return; EndOrganya(); for (i = 0; i < SE_MAX; i++) if (lpSECONDARYBUFFER[i] != NULL) AudioBackend_DestroySound(lpSECONDARYBUFFER[i]); AudioBackend_Deinit(); } // Below are two completely unused functions for loading .wav files as sound effects. // Some say that sounds heard in CS Beta footage don't sound like PixTone... // There's a bit of a problem with this code: it hardcodes the offsets of various bits // of data in the WAV header - this makes the code only compatible with very specific // .wav files. You can check the prototype OrgView EXEs for examples of those. // サウンドの設定 (Sound settings) BOOL InitSoundObject(const char *resname, int no) { const unsigned char *resource_pointer; // リソースのアドレス (Resource address) if (!audio_backend_initialised) return TRUE; // リソースの検索 (Search for resources) resource_pointer = FindResource(resname, "WAVE", NULL); if (resource_pointer == NULL) return FALSE; // Get sound properties, and check if it's valid unsigned long buffer_size = resource_pointer[0x36] | (resource_pointer[0x37] << 8) | (resource_pointer[0x38] << 16) | (resource_pointer[0x39] << 24); unsigned short format = resource_pointer[0x14] | (resource_pointer[0x15] << 8); unsigned short channels = resource_pointer[0x16] | (resource_pointer[0x17] << 8); unsigned long sample_rate = resource_pointer[0x18] | (resource_pointer[0x19] << 8) | (resource_pointer[0x1A] << 16) | (resource_pointer[0x1B] << 24); unsigned short bits_per_sample = resource_pointer[0x22] | (resource_pointer[0x23] << 8); if (format != 1) // 1 is WAVE_FORMAT_PCM return FALSE; if (channels != 1) // The mixer only supports mono right now return FALSE; if (bits_per_sample != 8) // The mixer only supports unsigned 8-bit samples return FALSE; // 二次バッファの生成 (Create secondary buffer) lpSECONDARYBUFFER[no] = AudioBackend_CreateSound(sample_rate, resource_pointer + 0x3A, buffer_size); if (lpSECONDARYBUFFER[no] == NULL) return FALSE; return TRUE; } BOOL LoadSoundObject(const char *file_name, int no) { std::string path; //unsigned long i; unsigned long file_size = 0; char check_box[58]; FILE *fp; path = gModulePath + '/' + file_name; if (!audio_backend_initialised) return TRUE; if ((fp = fopen(path.c_str(), "rb")) == NULL) return FALSE; fseek(fp, 0, SEEK_END); file_size = ftell(fp); rewind(fp); // Let's not throttle disk I/O, shall we... //for (i = 0; i < 58; i++) // fread(&check_box[i], sizeof(char), 1, fp); // Holy hell, this is inefficient fread(check_box, 1, 58, fp); #ifdef FIX_MAJOR_BUGS // The original code forgets to close 'fp' if (check_box[0] != 'R' || check_box[1] != 'I' || check_box[2] != 'F' || check_box[3] != 'F') { fclose(fp); return FALSE; } #else if (check_box[0] != 'R') return FALSE; if (check_box[1] != 'I') return FALSE; if (check_box[2] != 'F') return FALSE; if (check_box[3] != 'F') return FALSE; #endif unsigned char *wp; wp = (unsigned char*)malloc(file_size); // ファイルのワークスペースを作る (Create a file workspace) #ifdef FIX_MAJOR_BUGS if (wp == NULL) { fclose(fp); return FALSE; } #endif fseek(fp, 0, SEEK_SET); // Bloody hell, Pixel, come on... //for (i = 0; i < file_size; i++) // fread((BYTE*)wp+i, sizeof(char), 1, fp); // Pixel, stahp fread(wp, 1, file_size, fp); fclose(fp); // Get sound properties, and check if it's valid unsigned long buffer_size = wp[0x36] | (wp[0x37] << 8) | (wp[0x38] << 16) | (wp[0x39] << 24); unsigned short format = wp[0x14] | (wp[0x15] << 8); unsigned short channels = wp[0x16] | (wp[0x17] << 8); unsigned long sample_rate = wp[0x18] | (wp[0x19] << 8) | (wp[0x1A] << 16) | (wp[0x1B] << 24); unsigned short bits_per_sample = wp[0x22] | (wp[0x23] << 8); if (format != 1) // 1 is WAVE_FORMAT_PCM { free(wp); return FALSE; } if (channels != 1) // The mixer only supports mono right now { free(wp); return FALSE; } if (bits_per_sample != 8) // The mixer only supports 8-bit unsigned samples { free(wp); return FALSE; } // セカンダリバッファの生成 (Create secondary buffer) lpSECONDARYBUFFER[no] = AudioBackend_CreateSound(sample_rate, wp + 0x3A, buffer_size); if (lpSECONDARYBUFFER[no] == NULL) { #ifdef FIX_MAJOR_BUGS free(wp); // The updated Organya source code includes this fix #endif return FALSE; } free(wp); return TRUE; } void PlaySoundObject(int no, SoundMode mode) { if (!audio_backend_initialised) return; if (lpSECONDARYBUFFER[no] != NULL) { switch (mode) { case SOUND_MODE_STOP: // 停止 (Stop) AudioBackend_StopSound(lpSECONDARYBUFFER[no]); break; case SOUND_MODE_PLAY: // 再生 (Playback) AudioBackend_StopSound(lpSECONDARYBUFFER[no]); AudioBackend_RewindSound(lpSECONDARYBUFFER[no]); AudioBackend_PlaySound(lpSECONDARYBUFFER[no], FALSE); break; case SOUND_MODE_PLAY_LOOP:// ループ再生 (Loop playback) AudioBackend_PlaySound(lpSECONDARYBUFFER[no], TRUE); break; } } } void ChangeSoundFrequency(int no, unsigned long rate) // 100がMIN9999がMAXで2195?がノーマル (100 is MIN, 9999 is MAX, and 2195 is normal) { if (!audio_backend_initialised) return; AudioBackend_SetSoundFrequency(lpSECONDARYBUFFER[no], (rate * 10) + 100); } void ChangeSoundVolume(int no, long volume) // 300がMAXで300がノーマル (300 is MAX and 300 is normal) { if (!audio_backend_initialised) return; AudioBackend_SetSoundVolume(lpSECONDARYBUFFER[no], (volume - 300) * 8); } void ChangeSoundPan(int no, long pan) // 512がMAXで256がノーマル (512 is MAX and 256 is normal) { if (!audio_backend_initialised) return; AudioBackend_SetSoundPan(lpSECONDARYBUFFER[no], (pan - 256) * 10); } // TODO - The stack frame for this function is inaccurate int MakePixToneObject(const PIXTONEPARAMETER *ptp, int ptp_num, int no) { int sample_count; int i, j; const PIXTONEPARAMETER *ptp_pointer; unsigned char *pcm_buffer; unsigned char *mixed_pcm_buffer; if (!audio_backend_initialised) return 0; ptp_pointer = ptp; sample_count = 0; for (i = 0; i < ptp_num; i++) { if (ptp_pointer->size > sample_count) sample_count = ptp_pointer->size; ++ptp_pointer; } pcm_buffer = mixed_pcm_buffer = NULL; pcm_buffer = (unsigned char*)malloc(sample_count); mixed_pcm_buffer = (unsigned char*)malloc(sample_count); if (pcm_buffer == NULL || mixed_pcm_buffer == NULL) { if (pcm_buffer != NULL) free(pcm_buffer); if (mixed_pcm_buffer != NULL) free(mixed_pcm_buffer); return -1; } memset(pcm_buffer, 0x80, sample_count); memset(mixed_pcm_buffer, 0x80, sample_count); ptp_pointer = ptp; for (i = 0; i < ptp_num; i++) { if (!MakePixelWaveData(ptp_pointer, pcm_buffer)) { if (pcm_buffer != NULL) // This is always true free(pcm_buffer); if (mixed_pcm_buffer != NULL) // This is always true free(mixed_pcm_buffer); return -1; } for (j = 0; j < ptp_pointer->size; j++) { if (pcm_buffer[j] + mixed_pcm_buffer[j] - 0x100 < -0x7F) mixed_pcm_buffer[j] = 0; else if (pcm_buffer[j] + mixed_pcm_buffer[j] - 0x100 > 0x7F) mixed_pcm_buffer[j] = 0xFF; else mixed_pcm_buffer[j] = mixed_pcm_buffer[j] + pcm_buffer[j] - 0x80; } ++ptp_pointer; } // This is self-assignment, so redundant. Maybe this used to be something to prevent audio popping ? mixed_pcm_buffer[0] = mixed_pcm_buffer[0]; mixed_pcm_buffer[sample_count - 1] = mixed_pcm_buffer[sample_count - 1]; lpSECONDARYBUFFER[no] = AudioBackend_CreateSound(22050, mixed_pcm_buffer, sample_count); if (pcm_buffer != NULL) free(pcm_buffer); if (mixed_pcm_buffer != NULL) free(mixed_pcm_buffer); if (lpSECONDARYBUFFER[no] == NULL) return -1; return sample_count; }