Mercurial > sdl-ios-xcode
view src/audio/sdlgenaudiocvt.pl @ 3100:7dc982143c06
Date: Sun, 22 Mar 2009 12:52:29 +0000
From: Luke Benstead
Subject: OpenGL 3.0 Context Creation
I've attached a patch which implements OpenGL 3.x context creation on
the latest SVN. I've added two options to SDL_GL_SetAttribute, these
are SDL_GL_CONTEXT_MAJOR_VERSION and SDL_GL_CONTEXT_MINOR_VERSION.
These default to 2 and 1 respectively. If the major version is less
than 3 then the current context creation method is used, otherwise the
appropriate new context creation function is called (depending on the
platform).
Sample code:
if (SDL_Init(SDL_INIT_VIDEO) != 0) {
printf("Unable to initialize SDL: %s\n", SDL_GetError());
return 1;
}
SDL_GL_SetAttribute(SDL_GL_CONTEXT_MAJOR_VERSION, 3); //Without these 2 lines, SDL will create a GL 2.x context
SDL_GL_SetAttribute(SDL_GL_CONTEXT_MINOR_VERSION, 0);
SDL_GL_SetAttribute(SDL_GL_DOUBLEBUFFER, 1);
SDL_Surface* screen = SDL_SetVideoMode( 640, 480, 16, SDL_OPENGL | SDL_FULLSCREEN );
I've implemented context creation on both Win32 and X and run basic
tests on both. This patch doesn't provide access to all the options
allowed by the new context creation (e.g. shared contexts, forward
compatible contexts) but they can be added pretty easily.
| author | Sam Lantinga <slouken@libsdl.org> |
|---|---|
| date | Tue, 24 Mar 2009 10:43:53 +0000 |
| parents | 77c3e67f0740 |
| children | bfa8d34ce03a |
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#!/usr/bin/perl -w use warnings; use strict; my @audiotypes = qw( U8 S8 U16LSB S16LSB U16MSB S16MSB S32LSB S32MSB F32LSB F32MSB ); my @channels = ( 1, 2, 4, 6, 8 ); my %funcs; my $custom_converters = 0; sub getTypeConvertHashId { my ($from, $to) = @_; return "TYPECONVERTER $from/$to"; } sub getResamplerHashId { my ($from, $channels, $upsample, $multiple) = @_; return "RESAMPLER $from/$channels/$upsample/$multiple"; } sub outputHeader { print <<EOF; /* DO NOT EDIT! This file is generated by sdlgenaudiocvt.pl */ /* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken\@libsdl.org */ #include "SDL_config.h" #include "SDL_audio.h" #include "SDL_audio_c.h" #ifndef DEBUG_CONVERT #define DEBUG_CONVERT 0 #endif /* If you can guarantee your data and need space, you can eliminate code... */ /* Just build the arbitrary resamplers if you're saving code space. */ #ifndef LESS_RESAMPLERS #define LESS_RESAMPLERS 0 #endif /* Don't build any resamplers if you're REALLY saving code space. */ #ifndef NO_RESAMPLERS #define NO_RESAMPLERS 0 #endif /* Don't build any type converters if you're saving code space. */ #ifndef NO_CONVERTERS #define NO_CONVERTERS 0 #endif /* *INDENT-OFF* */ EOF my @vals = ( 127, 32767, 2147483647 ); foreach (@vals) { my $val = $_; my $fval = 1.0 / $val; print("#define DIVBY${val} ${fval}f\n"); } print("\n"); } sub outputFooter { print <<EOF; /* $custom_converters converters generated. */ /* *INDENT-ON* */ /* vi: set ts=4 sw=4 expandtab: */ EOF } sub splittype { my $t = shift; my ($signed, $size, $endian) = $t =~ /([USF])(\d+)([LM]SB|)/; my $float = ($signed eq 'F') ? 1 : 0; $signed = (($float) or ($signed eq 'S')) ? 1 : 0; $endian = 'NONE' if ($endian eq ''); my $ctype = ''; if ($float) { $ctype = (($size == 32) ? 'float' : 'double'); } else { $ctype = (($signed) ? 'S' : 'U') . "int${size}"; } return ($signed, $float, $size, $endian, $ctype); } sub getSwapFunc { my ($size, $signed, $float, $endian, $val) = @_; my $BEorLE = (($endian eq 'MSB') ? 'BE' : 'LE'); my $code = ''; if ($float) { $code = "SDL_SwapFloat${BEorLE}($val)"; } else { if ($size > 8) { $code = "SDL_Swap${BEorLE}${size}($val)"; } else { $code = $val; } if (($signed) and (!$float)) { $code = "((Sint${size}) $code)"; } } return "${code}"; } sub maxIntVal { my $size = shift; if ($size == 8) { return 0x7F; } elsif ($size == 16) { return 0x7FFF; } elsif ($size == 32) { return 0x7FFFFFFF; } die("bug in script.\n"); } sub getFloatToIntMult { my $size = shift; my $val = maxIntVal($size) . '.0'; $val .= 'f' if ($size < 32); return $val; } sub getIntToFloatDivBy { my $size = shift; return 'DIVBY' . maxIntVal($size); } sub getSignFlipVal { my $size = shift; if ($size == 8) { return '0x80'; } elsif ($size == 16) { return '0x8000'; } elsif ($size == 32) { return '0x80000000'; } die("bug in script.\n"); } sub buildCvtFunc { my ($from, $to) = @_; my ($fsigned, $ffloat, $fsize, $fendian, $fctype) = splittype($from); my ($tsigned, $tfloat, $tsize, $tendian, $tctype) = splittype($to); my $diffs = 0; $diffs++ if ($fsize != $tsize); $diffs++ if ($fsigned != $tsigned); $diffs++ if ($ffloat != $tfloat); $diffs++ if ($fendian ne $tendian); return if ($diffs == 0); my $hashid = getTypeConvertHashId($from, $to); if (1) { # !!! FIXME: if ($diffs > 1) { my $sym = "SDL_Convert_${from}_to_${to}"; $funcs{$hashid} = $sym; $custom_converters++; # Always unsigned for ints, for possible byteswaps. my $srctype = (($ffloat) ? 'float' : "Uint${fsize}"); print <<EOF; static void SDLCALL ${sym}(SDL_AudioCVT * cvt, SDL_AudioFormat format) { int i; const $srctype *src; $tctype *dst; #if DEBUG_CONVERT fprintf(stderr, "Converting AUDIO_${from} to AUDIO_${to}.\\n"); #endif EOF if ($fsize < $tsize) { my $mult = $tsize / $fsize; print <<EOF; src = ((const $srctype *) (cvt->buf + cvt->len_cvt)) - 1; dst = (($tctype *) (cvt->buf + cvt->len_cvt * $mult)) - 1; for (i = cvt->len_cvt / sizeof ($srctype); i; --i, --src, --dst) { EOF } else { print <<EOF; src = (const $srctype *) cvt->buf; dst = ($tctype *) cvt->buf; for (i = cvt->len_cvt / sizeof ($srctype); i; --i, ++src, ++dst) { EOF } # Have to convert to/from float/int. # !!! FIXME: cast through double for int32<->float? my $code = getSwapFunc($fsize, $fsigned, $ffloat, $fendian, '*src'); if ($ffloat != $tfloat) { if ($ffloat) { my $mult = getFloatToIntMult($tsize); if (!$tsigned) { # bump from -1.0f/1.0f to 0.0f/2.0f $code = "($code + 1.0f)"; } $code = "(($tctype) ($code * $mult))"; } else { # $divby will be the reciprocal, to avoid pipeline stalls # from floating point division...so multiply it. my $divby = getIntToFloatDivBy($fsize); $code = "(((float) $code) * $divby)"; if (!$fsigned) { # bump from 0.0f/2.0f to -1.0f/1.0f. $code = "($code - 1.0f)"; } } } else { # All integer conversions here. if ($fsigned != $tsigned) { my $signflipval = getSignFlipVal($fsize); $code = "(($code) ^ $signflipval)"; } my $shiftval = abs($fsize - $tsize); if ($fsize < $tsize) { $code = "((($tctype) $code) << $shiftval)"; } elsif ($fsize > $tsize) { $code = "(($tctype) ($code >> $shiftval))"; } } my $swap = getSwapFunc($tsize, $tsigned, $tfloat, $tendian, 'val'); print <<EOF; const $tctype val = $code; *dst = ${swap}; } EOF if ($fsize > $tsize) { my $divby = $fsize / $tsize; print(" cvt->len_cvt /= $divby;\n"); } elsif ($fsize < $tsize) { my $mult = $tsize / $fsize; print(" cvt->len_cvt *= $mult;\n"); } print <<EOF; if (cvt->filters[++cvt->filter_index]) { cvt->filters[cvt->filter_index] (cvt, AUDIO_$to); } } EOF } else { if ($fsigned != $tsigned) { $funcs{$hashid} = 'SDL_ConvertSigned'; } elsif ($ffloat != $tfloat) { $funcs{$hashid} = 'SDL_ConvertFloat'; } elsif ($fsize != $tsize) { $funcs{$hashid} = 'SDL_ConvertSize'; } elsif ($fendian ne $tendian) { $funcs{$hashid} = 'SDL_ConvertEndian'; } else { die("error in script.\n"); } } } sub buildTypeConverters { print "#if !NO_CONVERTERS\n\n"; foreach (@audiotypes) { my $from = $_; foreach (@audiotypes) { my $to = $_; buildCvtFunc($from, $to); } } print "#endif /* !NO_CONVERTERS */\n\n\n"; print "const SDL_AudioTypeFilters sdl_audio_type_filters[] =\n{\n"; print "#if !NO_CONVERTERS\n"; foreach (@audiotypes) { my $from = $_; foreach (@audiotypes) { my $to = $_; if ($from ne $to) { my $hashid = getTypeConvertHashId($from, $to); my $sym = $funcs{$hashid}; print(" { AUDIO_$from, AUDIO_$to, $sym },\n"); } } } print "#endif /* !NO_CONVERTERS */\n"; print(" { 0, 0, NULL }\n"); print "};\n\n\n"; } sub getBiggerCtype { my ($isfloat, $size) = @_; if ($isfloat) { if ($size == 32) { return 'double'; } die("bug in script.\n"); } if ($size == 8) { return 'Sint16'; } elsif ($size == 16) { return 'Sint32' } elsif ($size == 32) { return 'Sint64' } die("bug in script.\n"); } # These handle arbitrary resamples...44100Hz to 48000Hz, for example. # Man, this code is skanky. sub buildArbitraryResampleFunc { # !!! FIXME: we do a lot of unnecessary and ugly casting in here, due to getSwapFunc(). my ($from, $channels, $upsample) = @_; my ($fsigned, $ffloat, $fsize, $fendian, $fctype) = splittype($from); my $bigger = getBiggerCtype($ffloat, $fsize); my $interp = ($ffloat) ? '* 0.5' : '>> 1'; my $resample = ($upsample) ? 'Upsample' : 'Downsample'; my $hashid = getResamplerHashId($from, $channels, $upsample, 0); my $sym = "SDL_${resample}_${from}_${channels}c"; $funcs{$hashid} = $sym; $custom_converters++; my $fudge = $fsize * $channels * 2; # !!! FIXME my $eps_adjust = ($upsample) ? 'dstsize' : 'srcsize'; my $incr = ''; my $incr2 = ''; # !!! FIXME: DEBUG_CONVERT should report frequencies. print <<EOF; static void SDLCALL ${sym}(SDL_AudioCVT * cvt, SDL_AudioFormat format) { #if DEBUG_CONVERT fprintf(stderr, "$resample arbitrary (x%f) AUDIO_${from}, ${channels} channels.\\n", cvt->rate_incr); #endif const int srcsize = cvt->len_cvt - $fudge; const int dstsize = (int) (((double)cvt->len_cvt) * cvt->rate_incr); register int eps = 0; EOF # Upsampling (growing the buffer) needs to work backwards, since we # overwrite the buffer as we go. if ($upsample) { print <<EOF; $fctype *dst = (($fctype *) (cvt->buf + dstsize)) - $channels; const $fctype *src = (($fctype *) (cvt->buf + cvt->len_cvt)) - $channels; const $fctype *target = ((const $fctype *) cvt->buf) - $channels; EOF } else { print <<EOF; $fctype *dst = ($fctype *) cvt->buf; const $fctype *src = ($fctype *) cvt->buf; const $fctype *target = (const $fctype *) (cvt->buf + dstsize); EOF } for (my $i = 0; $i < $channels; $i++) { my $idx = ($upsample) ? (($channels - $i) - 1) : $i; my $val = getSwapFunc($fsize, $fsigned, $ffloat, $fendian, "src[$idx]"); print <<EOF; $fctype sample${idx} = $val; EOF } for (my $i = 0; $i < $channels; $i++) { my $idx = ($upsample) ? (($channels - $i) - 1) : $i; print <<EOF; $fctype last_sample${idx} = sample${idx}; EOF } print <<EOF; while (dst != target) { EOF if ($upsample) { for (my $i = 0; $i < $channels; $i++) { # !!! FIXME: don't do this swap every write, just when the samples change. my $idx = (($channels - $i) - 1); my $val = getSwapFunc($fsize, $fsigned, $ffloat, $fendian, "sample${idx}"); print <<EOF; dst[$idx] = $val; EOF } $incr = ($channels == 1) ? 'dst--' : "dst -= $channels"; $incr2 = ($channels == 1) ? 'src--' : "src -= $channels"; print <<EOF; $incr; eps += srcsize; if ((eps << 1) >= dstsize) { $incr2; EOF } else { # downsample. $incr = ($channels == 1) ? 'src++' : "src += $channels"; print <<EOF; $incr; eps += dstsize; if ((eps << 1) >= srcsize) { EOF for (my $i = 0; $i < $channels; $i++) { my $val = getSwapFunc($fsize, $fsigned, $ffloat, $fendian, "sample${i}"); print <<EOF; dst[$i] = $val; EOF } $incr = ($channels == 1) ? 'dst++' : "dst += $channels"; print <<EOF; $incr; EOF } for (my $i = 0; $i < $channels; $i++) { my $idx = ($upsample) ? (($channels - $i) - 1) : $i; my $swapped = getSwapFunc($fsize, $fsigned, $ffloat, $fendian, "src[$idx]"); print <<EOF; sample${idx} = ($fctype) (((($bigger) $swapped) + (($bigger) last_sample${idx})) $interp); EOF } for (my $i = 0; $i < $channels; $i++) { my $idx = ($upsample) ? (($channels - $i) - 1) : $i; print <<EOF; last_sample${idx} = sample${idx}; EOF } print <<EOF; eps -= $eps_adjust; } } EOF print <<EOF; cvt->len_cvt = dstsize; if (cvt->filters[++cvt->filter_index]) { cvt->filters[cvt->filter_index] (cvt, format); } } EOF } # These handle clean resamples...doubling and quadrupling the sample rate, etc. sub buildMultipleResampleFunc { # !!! FIXME: we do a lot of unnecessary and ugly casting in here, due to getSwapFunc(). my ($from, $channels, $upsample, $multiple) = @_; my ($fsigned, $ffloat, $fsize, $fendian, $fctype) = splittype($from); my $bigger = getBiggerCtype($ffloat, $fsize); my $interp = ($ffloat) ? '* 0.5' : '>> 1'; my $interp2 = ($ffloat) ? '* 0.25' : '>> 2'; my $mult3 = ($ffloat) ? '3.0' : '3'; my $lencvtop = ($upsample) ? '*' : '/'; my $resample = ($upsample) ? 'Upsample' : 'Downsample'; my $hashid = getResamplerHashId($from, $channels, $upsample, $multiple); my $sym = "SDL_${resample}_${from}_${channels}c_x${multiple}"; $funcs{$hashid} = $sym; $custom_converters++; # !!! FIXME: DEBUG_CONVERT should report frequencies. print <<EOF; static void SDLCALL ${sym}(SDL_AudioCVT * cvt, SDL_AudioFormat format) { #if DEBUG_CONVERT fprintf(stderr, "$resample (x${multiple}) AUDIO_${from}, ${channels} channels.\\n"); #endif const int srcsize = cvt->len_cvt; const int dstsize = cvt->len_cvt $lencvtop $multiple; EOF # Upsampling (growing the buffer) needs to work backwards, since we # overwrite the buffer as we go. if ($upsample) { print <<EOF; $fctype *dst = (($fctype *) (cvt->buf + dstsize)) - $channels; const $fctype *src = (($fctype *) (cvt->buf + cvt->len_cvt)) - $channels; const $fctype *target = ((const $fctype *) cvt->buf) - $channels; EOF } else { print <<EOF; $fctype *dst = ($fctype *) cvt->buf; const $fctype *src = ($fctype *) cvt->buf; const $fctype *target = (const $fctype *) (cvt->buf + dstsize); EOF } for (my $i = 0; $i < $channels; $i++) { my $idx = ($upsample) ? (($channels - $i) - 1) : $i; my $val = getSwapFunc($fsize, $fsigned, $ffloat, $fendian, "src[$idx]"); print <<EOF; $bigger last_sample${idx} = ($bigger) $val; EOF } print <<EOF; while (dst != target) { EOF for (my $i = 0; $i < $channels; $i++) { my $idx = ($upsample) ? (($channels - $i) - 1) : $i; my $val = getSwapFunc($fsize, $fsigned, $ffloat, $fendian, "src[$idx]"); print <<EOF; const $bigger sample${idx} = ($bigger) $val; EOF } my $incr = ''; if ($upsample) { $incr = ($channels == 1) ? 'src--' : "src -= $channels"; } else { my $amount = $channels * $multiple; $incr = "src += $amount"; # can't ever be 1, so no "++" version. } print <<EOF; $incr; EOF # !!! FIXME: This really begs for some Altivec or SSE, etc. if ($upsample) { if ($multiple == 2) { for (my $i = $channels-1; $i >= 0; $i--) { my $dsti = $i + $channels; print <<EOF; dst[$dsti] = ($fctype) ((sample${i} + last_sample${i}) $interp); EOF } for (my $i = $channels-1; $i >= 0; $i--) { my $dsti = $i; print <<EOF; dst[$dsti] = ($fctype) sample${i}; EOF } } elsif ($multiple == 4) { for (my $i = $channels-1; $i >= 0; $i--) { my $dsti = $i + ($channels * 3); print <<EOF; dst[$dsti] = ($fctype) sample${i}; EOF } for (my $i = $channels-1; $i >= 0; $i--) { my $dsti = $i + ($channels * 2); print <<EOF; dst[$dsti] = ($fctype) ((($mult3 * sample${i}) + last_sample${i}) $interp2); EOF } for (my $i = $channels-1; $i >= 0; $i--) { my $dsti = $i + ($channels * 1); print <<EOF; dst[$dsti] = ($fctype) ((sample${i} + last_sample${i}) $interp); EOF } for (my $i = $channels-1; $i >= 0; $i--) { my $dsti = $i + ($channels * 0); print <<EOF; dst[$dsti] = ($fctype) ((sample${i} + ($mult3 * last_sample${i})) $interp2); EOF } } else { die('bug in program.'); # we only handle x2 and x4. } } else { # downsample. if ($multiple == 2) { for (my $i = 0; $i < $channels; $i++) { print <<EOF; dst[$i] = ($fctype) ((sample${i} + last_sample${i}) $interp); EOF } } elsif ($multiple == 4) { # !!! FIXME: interpolate all 4 samples? for (my $i = 0; $i < $channels; $i++) { print <<EOF; dst[$i] = ($fctype) ((sample${i} + last_sample${i}) $interp); EOF } } else { die('bug in program.'); # we only handle x2 and x4. } } for (my $i = 0; $i < $channels; $i++) { my $idx = ($upsample) ? (($channels - $i) - 1) : $i; print <<EOF; last_sample${idx} = sample${idx}; EOF } if ($upsample) { my $amount = $channels * $multiple; $incr = "dst -= $amount"; # can't ever be 1, so no "--" version. } else { $incr = ($channels == 1) ? 'dst++' : "dst += $channels"; } print <<EOF; $incr; } cvt->len_cvt = dstsize; if (cvt->filters[++cvt->filter_index]) { cvt->filters[cvt->filter_index] (cvt, format); } } EOF } sub buildResamplers { print "#if !NO_RESAMPLERS\n\n"; foreach (@audiotypes) { my $from = $_; foreach (@channels) { my $channel = $_; buildArbitraryResampleFunc($from, $channel, 1); buildArbitraryResampleFunc($from, $channel, 0); } } print "\n#if !LESS_RESAMPLERS\n\n"; foreach (@audiotypes) { my $from = $_; foreach (@channels) { my $channel = $_; for (my $multiple = 2; $multiple <= 4; $multiple += 2) { buildMultipleResampleFunc($from, $channel, 1, $multiple); buildMultipleResampleFunc($from, $channel, 0, $multiple); } } } print "#endif /* !LESS_RESAMPLERS */\n"; print "#endif /* !NO_RESAMPLERS */\n\n\n"; print "const SDL_AudioRateFilters sdl_audio_rate_filters[] =\n{\n"; print "#if !NO_RESAMPLERS\n"; foreach (@audiotypes) { my $from = $_; foreach (@channels) { my $channel = $_; for (my $upsample = 0; $upsample <= 1; $upsample++) { my $hashid = getResamplerHashId($from, $channel, $upsample, 0); my $sym = $funcs{$hashid}; print(" { AUDIO_$from, $channel, $upsample, 0, $sym },\n"); } } } print "#if !LESS_RESAMPLERS\n"; foreach (@audiotypes) { my $from = $_; foreach (@channels) { my $channel = $_; for (my $multiple = 2; $multiple <= 4; $multiple += 2) { for (my $upsample = 0; $upsample <= 1; $upsample++) { my $hashid = getResamplerHashId($from, $channel, $upsample, $multiple); my $sym = $funcs{$hashid}; print(" { AUDIO_$from, $channel, $upsample, $multiple, $sym },\n"); } } } } print "#endif /* !LESS_RESAMPLERS */\n"; print "#endif /* !NO_RESAMPLERS */\n"; print(" { 0, 0, 0, 0, NULL }\n"); print "};\n\n"; } # mainline ... outputHeader(); buildTypeConverters(); buildResamplers(); outputFooter(); exit 0; # end of sdlgenaudiocvt.pl ...