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authorRobert Jonsson <spamatica@gmail.com>2011-03-07 19:01:11 +0000
committerRobert Jonsson <spamatica@gmail.com>2011-03-07 19:01:11 +0000
commite40fc849149dd97c248866a4a1d026dda5e57b62 (patch)
treeb12b358f3b3a0608001d30403358f8443118ec5f /muse_qt4_evolution/synti/zynaddsubfx/Misc/Microtonal.C
parent1bd4f2e8d9745cabb667b043171cad22c8577768 (diff)
clean3
Diffstat (limited to 'muse_qt4_evolution/synti/zynaddsubfx/Misc/Microtonal.C')
-rw-r--r--muse_qt4_evolution/synti/zynaddsubfx/Misc/Microtonal.C514
1 files changed, 0 insertions, 514 deletions
diff --git a/muse_qt4_evolution/synti/zynaddsubfx/Misc/Microtonal.C b/muse_qt4_evolution/synti/zynaddsubfx/Misc/Microtonal.C
deleted file mode 100644
index 30a3a71e..00000000
--- a/muse_qt4_evolution/synti/zynaddsubfx/Misc/Microtonal.C
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@@ -1,514 +0,0 @@
-/*
- ZynAddSubFX - a software synthesizer
-
- Microtonal.C - Tuning settings and microtonal capabilities
- Copyright (C) 2002-2005 Nasca Octavian Paul
- Author: Nasca Octavian Paul
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of version 2 of the GNU General Public License
- as published by the Free Software Foundation.
-
- This program 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 General Public License (version 2) for more details.
-
- You should have received a copy of the GNU General Public License (version 2)
- along with this program; if not, write to the Free Software Foundation,
- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-
-*/
-
-#include <math.h>
-#include <string.h>
-#include "Microtonal.h"
-
-#define MAX_LINE_SIZE 80
-
-Microtonal::Microtonal(){
- Pname=new unsigned char[MICROTONAL_MAX_NAME_LEN];
- Pcomment=new unsigned char[MICROTONAL_MAX_NAME_LEN];
- defaults();
-};
-
-void Microtonal::defaults(){
- Pinvertupdown=0;
- Pinvertupdowncenter=60;
- octavesize=12;
- Penabled=0;
- PAnote=69;
- PAfreq=440.0;
- Pscaleshift=64;
-
- Pfirstkey=0;Plastkey=127;
- Pmiddlenote=60;Pmapsize=12;
- Pmappingenabled=0;
-
- for (int i=0;i<128;i++) Pmapping[i]=i;
-
- for (int i=0;i<MAX_OCTAVE_SIZE;i++){
- octave[i].tuning=tmpoctave[i].tuning=pow(2,(i%octavesize+1)/12.0);
- octave[i].type=tmpoctave[i].type=1;
- octave[i].x1=tmpoctave[i].x1=(i%octavesize+1)*100;
- octave[i].x2=tmpoctave[i].x2=0;
- };
- octave[11].type=2;octave[11].x1=2;octave[11].x2=1;
- for (int i=0;i<MICROTONAL_MAX_NAME_LEN;i++){
- Pname[i]='\0';
- Pcomment[i]='\0';
- };
- snprintf((char *) Pname,MICROTONAL_MAX_NAME_LEN,"12tET");
- snprintf((char *) Pcomment,MICROTONAL_MAX_NAME_LEN,"Equal Temperament 12 notes per octave");
- Pglobalfinedetune=64;
-};
-
-Microtonal::~Microtonal(){
- delete (Pname);
- delete (Pcomment);
-};
-
-/*
- * Get the size of the octave
- */
-unsigned char Microtonal::getoctavesize(){
- if (Penabled!=0) return(octavesize);
- else return(12);
-};
-
-/*
- * Get the frequency according the note number
- */
-REALTYPE Microtonal::getnotefreq(int note,int keyshift){
- // in this function will appears many times things like this:
- // var=(a+b*100)%b
- // I had written this way because if I use var=a%b gives unwanted results when a<0
- // This is the same with divisions.
-
- if ((Pinvertupdown!=0)&&((Pmappingenabled==0)||(Penabled==0))) note=(int) Pinvertupdowncenter*2-note;
-
- //compute global fine detune
- REALTYPE globalfinedetunerap=pow(2.0,(Pglobalfinedetune-64.0)/1200.0);//-64.0 .. 63.0 cents
-
- if (Penabled==0) return(pow(2.0,(note-PAnote+keyshift)/12.0)*PAfreq*globalfinedetunerap);//12tET
-
- int scaleshift=((int)Pscaleshift-64+(int) octavesize*100)%octavesize;
-
- //compute the keyshift
- REALTYPE rap_keyshift=1.0;
- if (keyshift!=0){
- int kskey=(keyshift+(int)octavesize*100)%octavesize;
- int ksoct=(keyshift+(int)octavesize*100)/octavesize-100;
- rap_keyshift=(kskey==0) ? (1.0):(octave[kskey-1].tuning);
- rap_keyshift*=pow(octave[octavesize-1].tuning,ksoct);
- };
-
- //if the mapping is enabled
- if (Pmappingenabled!=0){
- if ((note<Pfirstkey)||(note>Plastkey)) return (-1.0);
- //Compute how many mapped keys are from middle note to reference note
- //and find out the proportion between the freq. of middle note and "A" note
- int tmp=PAnote-Pmiddlenote,minus=0;
- if (tmp<0) { tmp=-tmp; minus=1; };
- int deltanote=0;
- for (int i=0;i<tmp;i++) if (Pmapping[i%Pmapsize]>=0) deltanote++;
- REALTYPE rap_anote_middlenote=(deltanote==0) ? (1.0) : (octave[(deltanote-1)%octavesize].tuning);
- if (deltanote!=0) rap_anote_middlenote*=pow(octave[octavesize-1].tuning,(deltanote-1)/octavesize);
- if (minus!=0) rap_anote_middlenote=1.0/rap_anote_middlenote;
-
- //Convert from note (midi) to degree (note from the tunning)
- int degoct=(note-(int)Pmiddlenote+(int) Pmapsize*200)/(int)Pmapsize-200;
- int degkey=(note-Pmiddlenote+(int)Pmapsize*100)%Pmapsize;
- degkey=Pmapping[degkey];
- if (degkey<0) return(-1.0);//this key is not mapped
-
- //invert the keyboard upside-down if it is asked for
- //TODO: do the right way by using Pinvertupdowncenter
- if (Pinvertupdown!=0){
- degkey=octavesize-degkey-1;
- degoct=-degoct;
- };
- //compute the frequency of the note
- degkey=degkey+scaleshift;
- degoct+=degkey/octavesize;
- degkey%=octavesize;
-
- REALTYPE freq=(degkey==0) ? (1.0):octave[degkey-1].tuning;
- freq*=pow(octave[octavesize-1].tuning,degoct);
- freq*=PAfreq/rap_anote_middlenote;
- freq*=globalfinedetunerap;
- if (scaleshift!=0) freq/=octave[scaleshift-1].tuning;
- return(freq*rap_keyshift);
- } else {//if the mapping is disabled
- int nt=note-PAnote+scaleshift;
- int ntkey=(nt+(int)octavesize*100)%octavesize;
- int ntoct=(nt-ntkey)/octavesize;
-
- REALTYPE oct=octave[octavesize-1].tuning;
- REALTYPE freq=octave[(ntkey+octavesize-1)%octavesize].tuning*pow(oct,ntoct)*PAfreq;
- if (ntkey==0) freq/=oct;
- if (scaleshift!=0) freq/=octave[scaleshift-1].tuning;
-// fprintf(stderr,"note=%d freq=%.3f cents=%d\n",note,freq,(int)floor(log(freq/PAfreq)/log(2.0)*1200.0+0.5));
- freq*=globalfinedetunerap;
- return(freq*rap_keyshift);
- };
-};
-
-
-/*
- * Convert a line to tunings; returns -1 if it ok
- */
-int Microtonal::linetotunings(unsigned int nline,const char *line){
- int x1=-1,x2=-1,type=-1;
- REALTYPE x=-1.0,tmp,tuning=1.0;
- if (strstr(line,"/")==NULL){
- if (strstr(line,".")==NULL){// M case (M=M/1)
- sscanf(line,"%d",&x1);
- x2=1;
- type=2;//division
- } else {// float number case
- sscanf(line,"%f",&x);
- if (x<0.000001) return(1);
- type=1;//float type(cents)
- };
- } else {// M/N case
- sscanf(line,"%d/%d",&x1,&x2);
- if ((x1<0)||(x2<0)) return(1);
- if (x2==0) x2=1;
- type=2;//division
- };
-
- if (x1<=0) x1=1;//not allow zero frequency sounds (consider 0 as 1)
-
- //convert to float if the number are too big
- if ((type==2)&&((x1>(128*128*128-1))||(x2>(128*128*128-1)))){
- type=1;
- x=((REALTYPE) x1)/x2;
- };
- switch (type){
- case 1: x1=(int) floor(x);
- tmp=fmod(x,1.0);
- x2=(int) (floor (tmp*1e6));
- tuning=pow(2.0,x/1200.0);
- break;
- case 2: x=((REALTYPE)x1)/x2;
- tuning=x;
- break;
- };
-
- tmpoctave[nline].tuning=tuning;
- tmpoctave[nline].type=type;
- tmpoctave[nline].x1=x1;
- tmpoctave[nline].x2=x2;
-
- return(-1);//ok
-};
-
-/*
- * Convert the text to tunnings
- */
-int Microtonal::texttotunings(const char *text){
- unsigned int i,k=0,nl=0;
- char *lin;
- lin=new char[MAX_LINE_SIZE+1];
- while (k<strlen(text)){
- for (i=0;i<MAX_LINE_SIZE;i++){
- lin[i]=text[k++];
- if (lin[i]<0x20) break;
- };
- lin[i]='\0';
- if (strlen(lin)==0) continue;
- int err=linetotunings(nl,lin);
- if (err!=-1) {
- delete [] lin;
- return(nl);//Parse error
- };
- nl++;
- };
- delete [] lin;
- if (nl>MAX_OCTAVE_SIZE) nl=MAX_OCTAVE_SIZE;
- if (nl==0) return(-2);//the input is empty
- octavesize=nl;
- for (i=0;i<octavesize;i++){
- octave[i].tuning=tmpoctave[i].tuning;
- octave[i].type=tmpoctave[i].type;
- octave[i].x1=tmpoctave[i].x1;
- octave[i].x2=tmpoctave[i].x2;
- };
- return(-1);//ok
-};
-
-/*
- * Convert the text to mapping
- */
-void Microtonal::texttomapping(const char *text){
- unsigned int i,k=0;
- char *lin;
- lin=new char[MAX_LINE_SIZE+1];
- for (i=0;i<128;i++) Pmapping[i]=-1;
- int tx=0;
- while (k<strlen(text)){
- for (i=0;i<MAX_LINE_SIZE;i++){
- lin[i]=text[k++];
- if (lin[i]<0x20) break;
- };
- lin[i]='\0';
- if (strlen(lin)==0) continue;
-
- int tmp=0;
- if (sscanf(lin,"%d",&tmp)==0) tmp=-1;
- if (tmp<-1) tmp=-1;
- Pmapping[tx]=tmp;
-
- if ((tx++)>127) break;
- };
- delete [] lin;
-
- if (tx==0) tx=1;
- Pmapsize=tx;
-};
-
-/*
- * Convert tunning to text line
- */
-void Microtonal::tuningtoline(int n,char *line,int maxn){
- if ((n>octavesize) || (n>MAX_OCTAVE_SIZE)) {
- line[0]='\0';
- return;
- };
- if (octave[n].type==1) snprintf(line,maxn,"%d.%d",octave[n].x1,octave[n].x2);
- if (octave[n].type==2) snprintf(line,maxn,"%d/%d",octave[n].x1,octave[n].x2);
-};
-
-
-int Microtonal::loadline(FILE *file,char *line){
- do {
- if (fgets(line,500,file)==0) return(1);
- } while (line[0]=='!');
- return(0);
-};
-/*
- * Loads the tunnings from a scl file
- */
-int Microtonal::loadscl(const char *filename){
- FILE *file=fopen(filename, "r");
- char tmp[500];
- fseek(file,0,SEEK_SET);
- //loads the short description
- if (loadline(file,&tmp[0])!=0) return(2);
- for (int i=0;i<500;i++) if (tmp[i]<32) tmp[i]=0;
- snprintf((char *) Pname,MICROTONAL_MAX_NAME_LEN,"%s",tmp);
- snprintf((char *) Pcomment,MICROTONAL_MAX_NAME_LEN,"%s",tmp);
- //loads the number of the notes
- if (loadline(file,&tmp[0])!=0) return(2);
- int nnotes=MAX_OCTAVE_SIZE;
- sscanf(&tmp[0],"%d",&nnotes);
- if (nnotes>MAX_OCTAVE_SIZE) return (2);
- //load the tunnings
- for (int nline=0;nline<nnotes;nline++){
- if (loadline(file,&tmp[0])!=0) return(2);
- linetotunings(nline,&tmp[0]);
- };
- fclose(file);
-
- octavesize=nnotes;
- for (int i=0;i<octavesize;i++){
- octave[i].tuning=tmpoctave[i].tuning;
- octave[i].type=tmpoctave[i].type;
- octave[i].x1=tmpoctave[i].x1;
- octave[i].x2=tmpoctave[i].x2;
- };
-
- return(0);
-};
-
-/*
- * Loads the mapping from a kbm file
- */
-int Microtonal::loadkbm(const char *filename){
- FILE *file=fopen(filename, "r");
- int x;
- char tmp[500];
-
- fseek(file,0,SEEK_SET);
- //loads the mapsize
- if (loadline(file,&tmp[0])!=0) return(2);
- if (sscanf(&tmp[0],"%d",&x)==0) return(2);
- if (x<1) x=0;if (x>127) x=127;//just in case...
- Pmapsize=x;
- //loads first MIDI note to retune
- if (loadline(file,&tmp[0])!=0) return(2);
- if (sscanf(&tmp[0],"%d",&x)==0) return(2);
- if (x<1) x=0;if (x>127) x=127;//just in case...
- Pfirstkey=x;
- //loads last MIDI note to retune
- if (loadline(file,&tmp[0])!=0) return(2);
- if (sscanf(&tmp[0],"%d",&x)==0) return(2);
- if (x<1) x=0;if (x>127) x=127;//just in case...
- Plastkey=x;
- //loads last the middle note where scale fro scale degree=0
- if (loadline(file,&tmp[0])!=0) return(2);
- if (sscanf(&tmp[0],"%d",&x)==0) return(2);
- if (x<1) x=0;if (x>127) x=127;//just in case...
- Pmiddlenote=x;
- //loads the reference note
- if (loadline(file,&tmp[0])!=0) return(2);
- if (sscanf(&tmp[0],"%d",&x)==0) return(2);
- if (x<1) x=0;if (x>127) x=127;//just in case...
- PAnote=x;
- //loads the reference freq.
- if (loadline(file,&tmp[0])!=0) return(2);
- REALTYPE tmpPAfreq=440.0;
- if (sscanf(&tmp[0],"%f",&tmpPAfreq)==0) return(2);
- PAfreq=tmpPAfreq;
-
- //the scale degree(which is the octave) is not loaded, it is obtained by the tunnings with getoctavesize() method
- if (loadline(file,&tmp[0])!=0) return(2);
-
- //load the mappings
- if (Pmapsize!=0){
- for (int nline=0;nline<Pmapsize;nline++){
- if (loadline(file,&tmp[0])!=0) return(2);
- if (sscanf(&tmp[0],"%d",&x)==0) x=-1;
- Pmapping[nline]=x;
- };
- Pmappingenabled=1;
- } else {
- Pmappingenabled=0;
- Pmapping[0]=0;
- Pmapsize=1;
- };
- fclose(file);
-
- return(0);
-};
-
-
-
-void Microtonal::add2XML(XMLwrapper *xml){
- xml->addparstr("name",(char *) Pname);
- xml->addparstr("comment",(char *) Pcomment);
-
- xml->addparbool("invert_up_down",Pinvertupdown);
- xml->addparbool("invert_up_down_center",Pinvertupdowncenter);
-
- xml->addparbool("enabled",Penabled);
- xml->addpar("global_fine_detune",Pglobalfinedetune);
-
- xml->addpar("a_note",PAnote);
- xml->addparreal("a_freq",PAfreq);
-
- if ((Penabled==0)&&(xml->minimal)) return;
-
- xml->beginbranch("SCALE");
- xml->addpar("scale_shift",Pscaleshift);
- xml->addpar("first_key",Pfirstkey);
- xml->addpar("last_key",Plastkey);
- xml->addpar("middle_note",Pmiddlenote);
-
- xml->beginbranch("OCTAVE");
- xml->addpar("octave_size",octavesize);
- for (int i=0;i<octavesize;i++){
- xml->beginbranch("DEGREE",i);
- if (octave[i].type==1){
- xml->addparreal("cents",octave[i].tuning);
- };
- if (octave[i].type==2){
- xml->addpar("numerator",octave[i].x1);
- xml->addpar("denominator",octave[i].x2);
- };
- xml->endbranch();
- };
- xml->endbranch();
-
- xml->beginbranch("KEYBOARD_MAPPING");
- xml->addpar("map_size",Pmapsize);
- xml->addpar("mapping_enabled",Pmappingenabled);
- for (int i=0;i<Pmapsize;i++){
- xml->beginbranch("KEYMAP",i);
- xml->addpar("degree",Pmapping[i]);
- xml->endbranch();
- };
- xml->endbranch();
- xml->endbranch();
-};
-
-void Microtonal::getfromXML(XMLwrapper *xml){
- xml->getparstr("name",(char *) Pname,MICROTONAL_MAX_NAME_LEN);
- xml->getparstr("comment",(char *) Pcomment,MICROTONAL_MAX_NAME_LEN);
-
- Pinvertupdown=xml->getparbool("invert_up_down",Pinvertupdown);
- Pinvertupdowncenter=xml->getparbool("invert_up_down_center",Pinvertupdowncenter);
-
- Penabled=xml->getparbool("enabled",Penabled);
- Pglobalfinedetune=xml->getpar127("global_fine_detune",Pglobalfinedetune);
-
- PAnote=xml->getpar127("a_note",PAnote);
- PAfreq=xml->getparreal("a_freq",PAfreq,1.0,10000.0);
-
- if (xml->enterbranch("SCALE")){
- Pscaleshift=xml->getpar127("scale_shift",Pscaleshift);
- Pfirstkey=xml->getpar127("first_key",Pfirstkey);
- Plastkey=xml->getpar127("last_key",Plastkey);
- Pmiddlenote=xml->getpar127("middle_note",Pmiddlenote);
-
- if (xml->enterbranch("OCTAVE")){
- octavesize=xml->getpar127("octave_size",octavesize);
- for (int i=0;i<octavesize;i++){
- if (xml->enterbranch("DEGREE",i)==0) continue;
- octave[i].x2=0;
- octave[i].tuning=xml->getparreal("cents",octave[i].tuning);
- octave[i].x1=xml->getpar127("numerator",octave[i].x1);
- octave[i].x2=xml->getpar127("denominator",octave[i].x2);
-
- if (octave[i].x2!=0) octave[i].type=2;
- else octave[i].type=1;
-
- xml->exitbranch();
- };
- xml->exitbranch();
- };
-
- if (xml->enterbranch("KEYBOARD_MAPPING")){
- Pmapsize=xml->getpar127("map_size",Pmapsize);
- Pmappingenabled=xml->getpar127("mapping_enabled",Pmappingenabled);
- for (int i=0;i<Pmapsize;i++){
- if (xml->enterbranch("KEYMAP",i)==0) continue;
- Pmapping[i]=xml->getpar127("degree",Pmapping[i]);
- xml->exitbranch();
- };
- xml->exitbranch();
- };
- xml->exitbranch();
- };
-};
-
-
-int Microtonal::saveXML(char *filename){
- XMLwrapper *xml=new XMLwrapper();
-
- xml->beginbranch("MICROTONAL");
- add2XML(xml);
- xml->endbranch();
-
- int result=xml->saveXMLfile(filename);
- delete (xml);
- return(result);
-};
-
-int Microtonal::loadXML(char *filename){
- XMLwrapper *xml=new XMLwrapper();
- if (xml->loadXMLfile(filename)<0) {
- delete(xml);
- return(-1);
- };
-
- if (xml->enterbranch("MICROTONAL")==0) return(-10);
- getfromXML(xml);
- xml->exitbranch();
-
- delete(xml);
- return(0);
-};
-
-