Mercurial > sdl-ios-xcode
view src/audio/SDL_audiocvt.c @ 761:c5b2b6d2d1fe
Date: Wed, 31 Dec 2003 21:55:30 +0100
From: Max Horn
Subject: SDL: video/quartz cleanup
while doing some experimental changes in the quartz code, I was annoyed
by having to recompile that one big .o file over and over again. So I
decided to finally realize one TODO: properly splitting the code over
multiple files :-).
With two exceptions, I didn't make code changes, only rearranged files
and added new headers. Since there are several new files, making a
patch didn't work out so well, so I decided to just send you all the
new & modified files.
The one source change I made is related to showing/hiding the mouse. I
renamed cursor_visible to cursor_should_be_visible and cursor_hidden to
cursor_visible; I think that makes reading the code easier.
Then I added two new functions: QZ_ShowMouse and QZ_HideMouse. They
help manage cursor_visible (the former 'cursor_hidden'). Finally I
replaced the Carbon ShowCursor/HiderCuror calls by [NSCursor hide] and
[NSCursor unhide]. The API docs are not conclusive, but it might be
that with those the "cursor_visible" (former 'cursor_hidden') hack may
not be necessary anymore; however so far I didn't test this hypothesis,
so I left that in.
The other change was to remove in_foreground and use [NSApp isActive]
instead: Manually keeping track of whether we are in the foreground is
error prone. This should work better in some corner cases.
| author | Sam Lantinga <slouken@libsdl.org> |
|---|---|
| date | Sun, 04 Jan 2004 14:55:35 +0000 |
| parents | f6ffac90895c |
| children | b8d311d90021 |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997, 1998, 1999, 2000, 2001, 2002 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Sam Lantinga slouken@libsdl.org */ #ifdef SAVE_RCSID static char rcsid = "@(#) $Id$"; #endif /* Functions for audio drivers to perform runtime conversion of audio format */ #include <stdio.h> #include "SDL_error.h" #include "SDL_audio.h" /* Effectively mix right and left channels into a single channel */ void SDL_ConvertMono(SDL_AudioCVT *cvt, Uint16 format) { int i; Sint32 sample; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting to mono\n"); #endif switch (format&0x8018) { case AUDIO_U8: { Uint8 *src, *dst; src = cvt->buf; dst = cvt->buf; for ( i=cvt->len_cvt/2; i; --i ) { sample = src[0] + src[1]; if ( sample > 255 ) { *dst = 255; } else { *dst = sample; } src += 2; dst += 1; } } break; case AUDIO_S8: { Sint8 *src, *dst; src = (Sint8 *)cvt->buf; dst = (Sint8 *)cvt->buf; for ( i=cvt->len_cvt/2; i; --i ) { sample = src[0] + src[1]; if ( sample > 127 ) { *dst = 127; } else if ( sample < -128 ) { *dst = -128; } else { *dst = sample; } src += 2; dst += 1; } } break; case AUDIO_U16: { Uint8 *src, *dst; src = cvt->buf; dst = cvt->buf; if ( (format & 0x1000) == 0x1000 ) { for ( i=cvt->len_cvt/4; i; --i ) { sample = (Uint16)((src[0]<<8)|src[1])+ (Uint16)((src[2]<<8)|src[3]); if ( sample > 65535 ) { dst[0] = 0xFF; dst[1] = 0xFF; } else { dst[1] = (sample&0xFF); sample >>= 8; dst[0] = (sample&0xFF); } src += 4; dst += 2; } } else { for ( i=cvt->len_cvt/4; i; --i ) { sample = (Uint16)((src[1]<<8)|src[0])+ (Uint16)((src[3]<<8)|src[2]); if ( sample > 65535 ) { dst[0] = 0xFF; dst[1] = 0xFF; } else { dst[0] = (sample&0xFF); sample >>= 8; dst[1] = (sample&0xFF); } src += 4; dst += 2; } } } break; case AUDIO_S16: { Uint8 *src, *dst; src = cvt->buf; dst = cvt->buf; if ( (format & 0x1000) == 0x1000 ) { for ( i=cvt->len_cvt/4; i; --i ) { sample = (Sint16)((src[0]<<8)|src[1])+ (Sint16)((src[2]<<8)|src[3]); if ( sample > 32767 ) { dst[0] = 0x7F; dst[1] = 0xFF; } else if ( sample < -32768 ) { dst[0] = 0x80; dst[1] = 0x00; } else { dst[1] = (sample&0xFF); sample >>= 8; dst[0] = (sample&0xFF); } src += 4; dst += 2; } } else { for ( i=cvt->len_cvt/4; i; --i ) { sample = (Sint16)((src[1]<<8)|src[0])+ (Sint16)((src[3]<<8)|src[2]); if ( sample > 32767 ) { dst[1] = 0x7F; dst[0] = 0xFF; } else if ( sample < -32768 ) { dst[1] = 0x80; dst[0] = 0x00; } else { dst[0] = (sample&0xFF); sample >>= 8; dst[1] = (sample&0xFF); } src += 4; dst += 2; } } } break; } cvt->len_cvt /= 2; if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Duplicate a mono channel to both stereo channels */ void SDL_ConvertStereo(SDL_AudioCVT *cvt, Uint16 format) { int i; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting to stereo\n"); #endif if ( (format & 0xFF) == 16 ) { Uint16 *src, *dst; src = (Uint16 *)(cvt->buf+cvt->len_cvt); dst = (Uint16 *)(cvt->buf+cvt->len_cvt*2); for ( i=cvt->len_cvt/2; i; --i ) { dst -= 2; src -= 1; dst[0] = src[0]; dst[1] = src[0]; } } else { Uint8 *src, *dst; src = cvt->buf+cvt->len_cvt; dst = cvt->buf+cvt->len_cvt*2; for ( i=cvt->len_cvt; i; --i ) { dst -= 2; src -= 1; dst[0] = src[0]; dst[1] = src[0]; } } cvt->len_cvt *= 2; if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Convert 8-bit to 16-bit - LSB */ void SDL_Convert16LSB(SDL_AudioCVT *cvt, Uint16 format) { int i; Uint8 *src, *dst; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting to 16-bit LSB\n"); #endif src = cvt->buf+cvt->len_cvt; dst = cvt->buf+cvt->len_cvt*2; for ( i=cvt->len_cvt; i; --i ) { src -= 1; dst -= 2; dst[1] = *src; dst[0] = 0; } format = ((format & ~0x0008) | AUDIO_U16LSB); cvt->len_cvt *= 2; if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Convert 8-bit to 16-bit - MSB */ void SDL_Convert16MSB(SDL_AudioCVT *cvt, Uint16 format) { int i; Uint8 *src, *dst; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting to 16-bit MSB\n"); #endif src = cvt->buf+cvt->len_cvt; dst = cvt->buf+cvt->len_cvt*2; for ( i=cvt->len_cvt; i; --i ) { src -= 1; dst -= 2; dst[0] = *src; dst[1] = 0; } format = ((format & ~0x0008) | AUDIO_U16MSB); cvt->len_cvt *= 2; if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Convert 16-bit to 8-bit */ void SDL_Convert8(SDL_AudioCVT *cvt, Uint16 format) { int i; Uint8 *src, *dst; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting to 8-bit\n"); #endif src = cvt->buf; dst = cvt->buf; if ( (format & 0x1000) != 0x1000 ) { /* Little endian */ ++src; } for ( i=cvt->len_cvt/2; i; --i ) { *dst = *src; src += 2; dst += 1; } format = ((format & ~0x9010) | AUDIO_U8); cvt->len_cvt /= 2; if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Toggle signed/unsigned */ void SDL_ConvertSign(SDL_AudioCVT *cvt, Uint16 format) { int i; Uint8 *data; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting audio signedness\n"); #endif data = cvt->buf; if ( (format & 0xFF) == 16 ) { if ( (format & 0x1000) != 0x1000 ) { /* Little endian */ ++data; } for ( i=cvt->len_cvt/2; i; --i ) { *data ^= 0x80; data += 2; } } else { for ( i=cvt->len_cvt; i; --i ) { *data++ ^= 0x80; } } format = (format ^ 0x8000); if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Toggle endianness */ void SDL_ConvertEndian(SDL_AudioCVT *cvt, Uint16 format) { int i; Uint8 *data, tmp; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting audio endianness\n"); #endif data = cvt->buf; for ( i=cvt->len_cvt/2; i; --i ) { tmp = data[0]; data[0] = data[1]; data[1] = tmp; data += 2; } format = (format ^ 0x1000); if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Convert rate up by multiple of 2 */ void SDL_RateMUL2(SDL_AudioCVT *cvt, Uint16 format) { int i; Uint8 *src, *dst; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting audio rate * 2\n"); #endif src = cvt->buf+cvt->len_cvt; dst = cvt->buf+cvt->len_cvt*2; switch (format & 0xFF) { case 8: for ( i=cvt->len_cvt; i; --i ) { src -= 1; dst -= 2; dst[0] = src[0]; dst[1] = src[0]; } break; case 16: for ( i=cvt->len_cvt/2; i; --i ) { src -= 2; dst -= 4; dst[0] = src[0]; dst[1] = src[1]; dst[2] = src[0]; dst[3] = src[1]; } break; } cvt->len_cvt *= 2; if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Convert rate down by multiple of 2 */ void SDL_RateDIV2(SDL_AudioCVT *cvt, Uint16 format) { int i; Uint8 *src, *dst; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting audio rate / 2\n"); #endif src = cvt->buf; dst = cvt->buf; switch (format & 0xFF) { case 8: for ( i=cvt->len_cvt/2; i; --i ) { dst[0] = src[0]; src += 2; dst += 1; } break; case 16: for ( i=cvt->len_cvt/4; i; --i ) { dst[0] = src[0]; dst[1] = src[1]; src += 4; dst += 2; } break; } cvt->len_cvt /= 2; if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } /* Very slow rate conversion routine */ void SDL_RateSLOW(SDL_AudioCVT *cvt, Uint16 format) { double ipos; int i, clen; #ifdef DEBUG_CONVERT fprintf(stderr, "Converting audio rate * %4.4f\n", 1.0/cvt->rate_incr); #endif clen = (int)((double)cvt->len_cvt / cvt->rate_incr); if ( cvt->rate_incr > 1.0 ) { switch (format & 0xFF) { case 8: { Uint8 *output; output = cvt->buf; ipos = 0.0; for ( i=clen; i; --i ) { *output = cvt->buf[(int)ipos]; ipos += cvt->rate_incr; output += 1; } } break; case 16: { Uint16 *output; clen &= ~1; output = (Uint16 *)cvt->buf; ipos = 0.0; for ( i=clen/2; i; --i ) { *output=((Uint16 *)cvt->buf)[(int)ipos]; ipos += cvt->rate_incr; output += 1; } } break; } } else { switch (format & 0xFF) { case 8: { Uint8 *output; output = cvt->buf+clen; ipos = (double)cvt->len_cvt; for ( i=clen; i; --i ) { ipos -= cvt->rate_incr; output -= 1; *output = cvt->buf[(int)ipos]; } } break; case 16: { Uint16 *output; clen &= ~1; output = (Uint16 *)(cvt->buf+clen); ipos = (double)cvt->len_cvt/2; for ( i=clen/2; i; --i ) { ipos -= cvt->rate_incr; output -= 1; *output=((Uint16 *)cvt->buf)[(int)ipos]; } } break; } } cvt->len_cvt = clen; if ( cvt->filters[++cvt->filter_index] ) { cvt->filters[cvt->filter_index](cvt, format); } } int SDL_ConvertAudio(SDL_AudioCVT *cvt) { /* Make sure there's data to convert */ if ( cvt->buf == NULL ) { SDL_SetError("No buffer allocated for conversion"); return(-1); } /* Return okay if no conversion is necessary */ cvt->len_cvt = cvt->len; if ( cvt->filters[0] == NULL ) { return(0); } /* Set up the conversion and go! */ cvt->filter_index = 0; cvt->filters[0](cvt, cvt->src_format); return(0); } /* Creates a set of audio filters to convert from one format to another. Returns -1 if the format conversion is not supported, or 1 if the audio filter is set up. */ int SDL_BuildAudioCVT(SDL_AudioCVT *cvt, Uint16 src_format, Uint8 src_channels, int src_rate, Uint16 dst_format, Uint8 dst_channels, int dst_rate) { /* Start off with no conversion necessary */ cvt->needed = 0; cvt->filter_index = 0; cvt->filters[0] = NULL; cvt->len_mult = 1; cvt->len_ratio = 1.0; /* First filter: Endian conversion from src to dst */ if ( (src_format & 0x1000) != (dst_format & 0x1000) && ((src_format & 0xff) != 8) ) { cvt->filters[cvt->filter_index++] = SDL_ConvertEndian; } /* Second filter: Sign conversion -- signed/unsigned */ if ( (src_format & 0x8000) != (dst_format & 0x8000) ) { cvt->filters[cvt->filter_index++] = SDL_ConvertSign; } /* Next filter: Convert 16 bit <--> 8 bit PCM */ if ( (src_format & 0xFF) != (dst_format & 0xFF) ) { switch (dst_format&0x10FF) { case AUDIO_U8: cvt->filters[cvt->filter_index++] = SDL_Convert8; cvt->len_ratio /= 2; break; case AUDIO_U16LSB: cvt->filters[cvt->filter_index++] = SDL_Convert16LSB; cvt->len_mult *= 2; cvt->len_ratio *= 2; break; case AUDIO_U16MSB: cvt->filters[cvt->filter_index++] = SDL_Convert16MSB; cvt->len_mult *= 2; cvt->len_ratio *= 2; break; } } /* Last filter: Mono/Stereo conversion */ if ( src_channels != dst_channels ) { while ( (src_channels*2) <= dst_channels ) { cvt->filters[cvt->filter_index++] = SDL_ConvertStereo; cvt->len_mult *= 2; src_channels *= 2; cvt->len_ratio *= 2; } /* This assumes that 4 channel audio is in the format: Left {front/back} + Right {front/back} so converting to L/R stereo works properly. */ while ( ((src_channels%2) == 0) && ((src_channels/2) >= dst_channels) ) { cvt->filters[cvt->filter_index++] = SDL_ConvertMono; src_channels /= 2; cvt->len_ratio /= 2; } if ( src_channels != dst_channels ) { /* Uh oh.. */; } } /* Do rate conversion */ cvt->rate_incr = 0.0; if ( (src_rate/100) != (dst_rate/100) ) { Uint32 hi_rate, lo_rate; int len_mult; double len_ratio; void (*rate_cvt)(SDL_AudioCVT *cvt, Uint16 format); if ( src_rate > dst_rate ) { hi_rate = src_rate; lo_rate = dst_rate; rate_cvt = SDL_RateDIV2; len_mult = 1; len_ratio = 0.5; } else { hi_rate = dst_rate; lo_rate = src_rate; rate_cvt = SDL_RateMUL2; len_mult = 2; len_ratio = 2.0; } /* If hi_rate = lo_rate*2^x then conversion is easy */ while ( ((lo_rate*2)/100) <= (hi_rate/100) ) { cvt->filters[cvt->filter_index++] = rate_cvt; cvt->len_mult *= len_mult; lo_rate *= 2; cvt->len_ratio *= len_ratio; } /* We may need a slow conversion here to finish up */ if ( (lo_rate/100) != (hi_rate/100) ) { #if 1 /* The problem with this is that if the input buffer is say 1K, and the conversion rate is say 1.1, then the output buffer is 1.1K, which may not be an acceptable buffer size for the audio driver (not a power of 2) */ /* For now, punt and hope the rate distortion isn't great. */ #else if ( src_rate < dst_rate ) { cvt->rate_incr = (double)lo_rate/hi_rate; cvt->len_mult *= 2; cvt->len_ratio /= cvt->rate_incr; } else { cvt->rate_incr = (double)hi_rate/lo_rate; cvt->len_ratio *= cvt->rate_incr; } cvt->filters[cvt->filter_index++] = SDL_RateSLOW; #endif } } /* Set up the filter information */ if ( cvt->filter_index != 0 ) { cvt->needed = 1; cvt->src_format = src_format; cvt->dst_format = dst_format; cvt->len = 0; cvt->buf = NULL; cvt->filters[cvt->filter_index] = NULL; } return(cvt->needed); }