--- np2/sound/vermouth/midiout.c 2003/12/01 04:01:42 1.5 +++ np2/sound/vermouth/midiout.c 2005/03/29 06:50:38 1.12 @@ -2,11 +2,11 @@ #include "midiout.h" -#define MIDIOUT_VERSION 0x104 -#define MIDIOUT_VERSTRING "VERMOUTH 1.04" +#define MIDIOUT_VERSION 0x105 +#define MIDIOUT_VERSTRING "VERMOUTH 1.05" -static const char vermouthver[] = MIDIOUT_VERSTRING; +static const OEMCHAR vermouthver[] = OEMTEXT(MIDIOUT_VERSTRING); static const int gaintbl[24+1] = { 16, 19, 22, 26, 32, 38, 45, 53, @@ -22,10 +22,31 @@ static void voice_volupdate(VOICE v) { int vol; ch = v->channel; +#if defined(VOLUME_ACURVE) + vol = ch->level * acurve[v->velocity]; + vol >>= 8; +#else vol = ch->level * v->velocity; vol >>= 7; +#endif vol *= v->sample->volume; vol >>= (21 - 16); +#if defined(PANPOT_REVA) + switch(v->flag & VOICE_MIXMASK) { + case VOICE_MIXNORMAL: + v->volleft = (vol * revacurve[v->panpot ^ 127]) >> 8; + v->volright = (vol * revacurve[v->panpot]) >> 8; + break; + + case VOICE_MIXCENTRE: + v->volleft = (vol * 155) >> 8; + break; + + default: + v->volleft = vol; + break; + } +#else v->volleft = vol; if ((v->flag & VOICE_MIXMASK) == VOICE_MIXNORMAL) { if (v->panpot < 64) { @@ -40,6 +61,7 @@ static void voice_volupdate(VOICE v) { v->volleft = vol; } } +#endif } static INSTLAYER selectlayer(VOICE v, INSTRUMENT inst) { @@ -183,6 +205,21 @@ static void voice_on(MIDIHDL midi, CHANN else { panpot = layer->panpot; } +#if defined(PANPOT_REVA) + if (panpot == 64) { + v->flag = VOICE_MIXCENTRE; + } + else if (panpot < 3) { + v->flag = VOICE_MIXLEFT; + } + else if (panpot >= 126) { + v->flag = VOICE_MIXRIGHT; + } + else { + v->flag = VOICE_MIXNORMAL; + v->panpot = panpot; + } +#else if ((panpot >= 60) && (panpot < 68)) { v->flag = VOICE_MIXCENTRE; } @@ -196,6 +233,7 @@ static void voice_on(MIDIHDL midi, CHANN v->flag = VOICE_MIXNORMAL; v->panpot = panpot; } +#endif if (!layer->samprate) { v->flag |= VOICE_FIXPITCH; } @@ -343,7 +381,11 @@ static void volumeupdate(MIDIHDL midi, C VOICE v; VOICE vterm; +#if defined(VOLUME_ACURVE) + ch->level = (midi->level * acurve[ch->volume] * ch->expression) >> 15; +#else ch->level = (midi->level * ch->volume * ch->expression) >> 14; +#endif v = midi->voice; vterm = v + VOICE_MAX; do { @@ -428,9 +470,16 @@ static void ctrlchange(MIDIHDL midi, CHA val &= 0x7f; switch(ctrl & 0x7f) { +#if !defined(MIDI_GMONLY) case CTRL_PGBANK: +#if defined(ENABLE_GSRX) + if (!(ch->gsrx[2] & GSRX2_BANKSELECT)) { + break; + } +#endif ch->bank = val; break; +#endif case CTRL_DATA_M: // TRACEOUT(("data: %x %x %x", c->rpn_l, c->rpn_m, val)); @@ -610,23 +659,46 @@ static void allvolupdate(MIDIHDL midi) { } while(v < vterm); } -static void allresetmidi(MIDIHDL midi) { - +#if defined(ENABLE_GSRX) +static void allresetmidi(MIDIHDL midi, BOOL gs) +#else +#define allresetmidi(m, g) _allresetmidi(m) +static void _allresetmidi(MIDIHDL midi) +#endif +{ CHANNEL ch; CHANNEL chterm; UINT flag; + midi->master = 127; ch = midi->channel; chterm = ch + 16; ZeroMemory(ch, sizeof(_CHANNEL) * 16); flag = 0; do { ch->flag = flag++; - ch->panpot = 64; ch->pitchsens = 2; +#if !defined(MIDI_GMONLY) ch->bank = 0; +#endif + ch->panpot = 64; progchange(midi, ch, 0); resetallcontrollers(ch); +#if defined(ENABLE_GSRX) + ch->keyshift = 0x40; + ch->noterange[0] = 0x00; + ch->noterange[1] = 0x7f; + if (gs) { + ch->gsrx[0] = 0xff; + ch->gsrx[1] = 0xff; + ch->gsrx[2] = 0xff; + } + else { + ch->gsrx[0] = 0x7f; + ch->gsrx[1] = 0xff; + ch->gsrx[2] = 0x02; + } +#endif ch++; } while(ch < chterm); allresetvoices(midi); @@ -636,7 +708,7 @@ static void allresetmidi(MIDIHDL midi) { // ---- -UINT midiout_getver(char *string, int leng) { +UINT midiout_getver(OEMCHAR *string, int leng) { milstr_ncpy(string, vermouthver, leng); return((MIDIOUT_VERSION << 8) | 0x00); @@ -661,12 +733,12 @@ MIDIHDL midiout_create(MIDIMOD module, U ret->samprate = module->samprate; ret->worksize = worksize; ret->module = module; - ret->master = 127; + // ret->master = 127; ret->bank0[0] = module->tone[0]; ret->bank0[1] = module->tone[1]; ret->sampbuf = (SINT32 *)(ret + 1); ret->resampbuf = (SAMPLE)(ret->sampbuf + worksize * 2); - allresetmidi(ret); + allresetmidi(ret, FALSE); } return(ret); } @@ -731,14 +803,162 @@ void midiout_shortmsg(MIDIHDL hdl, UINT3 } } -void midiout_longmsg(MIDIHDL hdl, const BYTE *msg, UINT size) { +static void longmsg_gm(MIDIHDL hdl, const UINT8 *msg, UINT size) { + + if ((size > 5) && (msg[2] == 0x7f) && (msg[3] == 0x09)) { + allresetmidi(hdl, FALSE); // GM reset + } +} + +static void longmsg_roland(MIDIHDL hdl, const UINT8 *msg, UINT size) { + + UINT addr; + UINT8 data; + UINT part; + CHANNEL ch; +#if defined(ENABLE_GSRX) + UINT8 bit; +#endif + + if (size <= 10) { + return; + } + // GS data set + if ((msg[2] != 0x10) || (msg[3] != 0x42) || (msg[4] != 0x12)) { + return; + } + addr = (msg[5] << 16) + (msg[6] << 8) + msg[7]; + msg += 8; + size -= 10; + while(size) { + size--; + data = (*msg++) & 0x7f; + if ((addr & (~0x400000)) == 0x7f) { // GS reset + allresetmidi(hdl, TRUE); + TRACEOUT(("GS-Reset")); + } + else if (addr == 0x400004) { // Vol + hdl->master = data; + allvolupdate(hdl); + } + else if ((addr & (~(0x000fff))) == 0x401000) { // GS CH + part = (addr >> 8) & 0x0f; + if (part == 0) { // part10 + part = 9; + } + else if (part < 10) { // part1-9 + part--; + } + ch = hdl->channel + part; + switch(addr & 0xff) { +#if !defined(MIDI_GMONLY) + case 0x00: // TONE NUMBER + ch->bank = data; + break; +#endif + + case 0x01: // PROGRAM NUMBER + progchange(hdl, ch, data); + break; + +#if defined(ENABLE_GSRX) + case 0x03: // Rx.PITCHBEND + case 0x04: // Rx.CH PRESSURE + case 0x05: // Rx.PROGRAM CHANGE + case 0x06: // Rx.CONTROL CHANGE + case 0x07: // Rx.POLY PRESSURE + case 0x08: // Rx.NOTE MESSAGE + case 0x09: // Rx.PRN + case 0x0a: // Rx.NRPN + bit = 1 << ((addr - 0x03) & 7); + if (data == 0) { + ch->gsrx[0] = ch->gsrx[0] & (~bit); + } + else if (data == 1) { + ch->gsrx[0] = ch->gsrx[0] | bit; + } + break; + + case 0x0b: // Rx.MODULATION + case 0x0c: // Rx.VOLUME + case 0x0d: // Rx.PANPOT + case 0x0e: // Rx.EXPRESSION + case 0x0f: // Rx.HOLD1 + case 0x10: // Rx.PORTAMENTO + case 0x11: // Rx.SOSTENUTO + case 0x12: // Rx.SOFT + bit = 1 << ((addr - 0x0b) & 7); + if (data == 0) { + ch->gsrx[1] = ch->gsrx[1] & (~bit); + } + else if (data == 1) { + ch->gsrx[1] = ch->gsrx[1] | bit; + } + break; +#endif + case 0x15: // USE FOR RHYTHM PART + if (data == 0) { + ch->flag &= ~CHANNEL_RHYTHM; + TRACEOUT(("ch%d - tone", part + 1)); + } + else if ((data == 1) || (data == 2)) { + ch->flag |= CHANNEL_RHYTHM; + TRACEOUT(("ch%d - rhythm", part + 1)); + } + break; + +#if defined(ENABLE_GSRX) + case 0x16: // PITCH KEY SHIFT + if ((data >= 0x28) && (data <= 0x58)) { + ch->keyshift = data; + } + break; + + case 0x1d: // KEYBOARD RANGE LOW + ch->noterange[0] = data; + break; + + case 0x1e: // KEYBOARD RANGE HIGH + ch->noterange[1] = data; + break; + + case 0x23: // Rx.BANK SELECT + case 0x24: // Rx.BANK SELECT LSB + bit = 1 << ((addr - 0x23) & 7); + if (data == 0) { + ch->gsrx[2] = ch->gsrx[2] & (~bit); + } + else if (data == 1) { + ch->gsrx[2] = ch->gsrx[2] | bit; + } + break; +#endif + default: + TRACEOUT(("Roland GS - %.6x", addr)); + break; + } + } + else { + TRACEOUT(("Roland GS - %.6x", addr)); + } + addr++; + } +} + +void midiout_longmsg(MIDIHDL hdl, const UINT8 *msg, UINT size) { + + UINT id; if ((hdl == NULL) || (msg == NULL)) { return; } - if ((size > 5) && (msg[1] == 0x7e)) { // GM - if ((msg[2] == 0x7f) && (msg[3] == 0x09)) { - allresetmidi(hdl); // GM reset + if (size > 3) { // (msg[size - 1] == 0xf7) + id = msg[1]; + if (id == 0x7e) { // GM + longmsg_gm(hdl, msg, size); + } + else if (id == 0x41) { // Roland + longmsg_roland(hdl, msg, size); } } }