VocalEasel/Sources/VLPitchName.cpp

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//
// File: VLPitchName.cpp - Translate between (MIDI) pitches and their UTF-8 representation
//
// Author(s):
//
// (MN) Matthias Neeracher
//
// Copyright © 2011 Matthias Neeracher
//
#include "VLPitchName.h"
#include "VLModel.h"
#define SHARP "\xE2\x99\xAF"
#define FLAT "\xE2\x99\xAD"
const char * kVLSharpStr = SHARP;
const char * kVLFlatStr = FLAT;
const char * kVL2SharpStr = "\xF0\x9D\x84\xAA";
const char * kVL2FlatStr = "\xF0\x9D\x84\xAB";
const char * kVLNaturalStr = "\xE2\x99\xAE";
static const char kScale[] = "C D EF G A B";
static const char * kFancyAccidental[] =
{
kVL2SharpStr, kVLSharpStr, "", kVLFlatStr, kVL2FlatStr
};
const int8_t kAccidentalBase = 2;
std::string VLPitchName(int8_t pitch, uint16_t accidental)
{
if (pitch == VLNote::kNoPitch)
return "r";
int8_t adjust;
accidental &= VLNote::kAccidentalsMask;
switch (accidental) {
case VLNote::kWant2Flat:
adjust = 2;
break;
case VLNote::kWantFlat:
adjust = 1;
break;
case VLNote::kWantSharp:
adjust = -1;
break;
case VLNote::kWant2Sharp:
adjust = -2;
break;
default:
adjust = 0;
break;
}
pitch += adjust;
pitch %= 12;
//
// Will either succeed immediately, or after one adjustment
//
if (kScale[pitch] == ' ')
if (adjust < 0 || (accidental & VLNote::kPreferFlats) == VLNote::kPreferFlats) {
++adjust;
pitch = (pitch+1)%12;
} else {
--adjust;
pitch = (pitch+11)%12;
}
std::string name = std::string(1, kScale[pitch]);
if (adjust)
return name+kFancyAccidental[adjust+kAccidentalBase];
else if ((accidental & VLNote::kWantNatural) == VLNote::kWantNatural)
return name+kVLNaturalStr;
else
return name;
}
static bool TestAccidental(uint16_t acc, int8_t adjust, std::string & str, size_t at,
const char * fancyStr, const char * asciiString,
int8_t & pitch, uint16_t * accidental)
{
size_t sz = str.size()-at;
size_t fancySz = strlen(fancyStr);
if (sz >= fancySz && !memcmp(fancyStr, &str[at], fancySz)) {
pitch += adjust;
*accidental = acc;
str.erase(at, fancySz);
return true;
}
size_t asciiSz = strlen(asciiString);
if (!asciiSz || sz < asciiSz)
return false;
for (size_t cmp = at; *asciiString; )
if (std::toupper(str[cmp++]) != *asciiString++)
return false;
pitch += adjust;
*accidental = acc;
str.erase(at, asciiSz);
return true;
}
int8_t VLParsePitch(std::string & str, size_t at, uint16_t * accidental)
{
int8_t pitch = VLNote::kNoPitch;
//
// Determine key
//
if (const char * key = strchr(kScale, std::toupper(str[at]))) {
pitch = key-kScale+VLNote::kMiddleC;
} else if (str[at] == 'r' || str[at] == 's') {
str.erase(at, 1); // Rest
return VLNote::kNoPitch;
} else
return kPitchError;
str.erase(at, 1);
//
// Look for accidentals
//
TestAccidental(VLNote::kWant2Flat, -2, str, at, kVL2FlatStr, "BB", pitch, accidental) ||
TestAccidental(VLNote::kWantFlat, -1, str, at, kVLFlatStr, "B", pitch, accidental) ||
TestAccidental(VLNote::kWantNatural, 0, str, at, kVLNaturalStr, "", pitch, accidental) ||
TestAccidental(VLNote::kWant2Sharp, 2, str, at, kVL2SharpStr, "##", pitch, accidental) ||
TestAccidental(VLNote::kWantSharp, 1, str, at, kVLSharpStr, "#", pitch, accidental) ||
(*accidental = 0);
return pitch;
}
static const char * kStepNames[] = {
"", "", "sus2", "", "", "sus", FLAT "5", "", SHARP "5", "6",
"7", SHARP "7", "", FLAT "9", "9", SHARP "9", "",
"11", SHARP "11", "", FLAT "13", "13"
};
#define _ VLChord::
void VLChordName(int8_t pitch, uint16_t accidental, uint32_t steps,
int8_t rootPitch, uint16_t rootAccidental,
std::string & baseName, std::string & extName, std::string & rootName)
{
baseName = VLPitchName(pitch, accidental);
if (rootPitch == VLNote::kNoPitch)
rootName.clear();
else
rootName = VLPitchName(rootPitch, rootAccidental);
//
// m / dim
//
extName.erase();
if (steps & _ kmMin3rd)
if (steps & _ kmDim5th
&& !(steps & (_ km5th|_ kmMin7th|_ kmMaj7th|_ kmMin9th|_ kmMaj9th|
_ km11th|_ kmAug11th|_ kmMin13th|_ kmMaj13th))
) {
extName += "dim";
steps|= (steps & _ kmDim7th) << 1;
steps&= ~(_ kmMin3rd|_ kmDim5th|_ kmDim7th);
} else {
baseName += "m";
steps&= ~_ kmMin3rd;
}
//
// +
//
steps &= ~(_ kmUnison | _ kmMaj3rd | _ km5th);
if (steps == _ kmAug5th) {
extName += "+";
steps= 0;
}
//
// Maj
//
if (steps & _ kmMaj7th) {
extName += "Maj";
steps &= ~_ kmMaj7th;
steps |= +_ kmMin7th; // Write out the 7 for clarification
}
//
// 6/9
//
if ((steps & (_ kmDim7th|_ kmMaj9th)) == (_ kmDim7th|_ kmMaj9th)) {
extName += "69";
steps &= ~(_ kmDim7th|_ kmMaj9th);
}
//
// Other extensions. Only the highest unaltered extension is listed.
//
bool has7th = steps & (_ kmMin7th|_ kmMaj7th);
bool has9th = steps & (_ kmMin9th|_ kmMaj9th|_ kmAug9th);
if ((steps & _ kmMaj13th) && has7th && has9th ) {
extName += kStepNames[_ kMaj13th];
steps &= ~(_ kmMin7th |_ kmMaj9th |_ km11th |_ kmMaj13th);
} else if ((steps & _ km11th) && has7th && has9th) {
extName += kStepNames[_ k11th];
steps &= ~(_ kmMin7th | _ kmMaj9th | _ km11th);
} else if ((steps & _ kmMaj9th) && has7th) {
extName += kStepNames[_ kMaj9th];
steps &= ~(_ kmMin7th | _ kmMaj9th);
} else if (steps & _ kmMin7th) {
extName += kStepNames[_ kMin7th];
steps &= ~(_ kmMin7th);
}
for (int step = _ kMin2nd; steps; ++step)
if (steps & (1 << step)) {
if ((1 << step) & (_ kmMaj9th|_ km11th|_ kmMaj13th))
extName += "add";
extName += kStepNames[step];
steps &= ~(1 << step);
}
}
static const VLChordModifier kModifiers[] = {
{"b13", _ kmMin13th, 0},
{FLAT "13", _ kmMin13th, 0},
{"add13", _ kmMaj13th, 0},
{"13", _ kmMin7th | _ kmMaj9th | _ km11th | _ kmMaj13th, 0},
{"#11", _ kmAug11th, _ km11th},
{SHARP "11", _ kmAug11th, _ km11th},
{"+11", _ kmAug11th, _ km11th},
{"add11", _ km11th, 0},
{"11", _ kmMin7th | _ kmMaj9th | _ km11th, 0},
{"#9", _ kmAug9th, _ kmMaj9th},
{SHARP "9", _ kmAug9th, _ kmMaj9th},
{"+9", _ kmAug9th, _ kmMaj9th},
{"b9", _ kmMin9th, _ kmMaj9th},
{FLAT "9", _ kmMin9th, _ kmMaj9th},
{"-9", _ kmMin9th, _ kmMaj9th},
{"69", _ kmDim7th | _ kmMaj9th, 0},
{"add9", _ kmMaj9th, 0},
{"9", _ kmMin7th | _ kmMaj9th, 0},
{"7", _ kmMin7th, 0},
{"maj", _ kmMaj7th, _ kmMin7th},
{"6", _ kmDim7th, 0},
{"#5", _ kmAug5th, _ km5th},
{SHARP "5", _ kmAug5th, _ km5th},
{"+5", _ kmAug5th, _ km5th},
{"aug", _ kmAug5th, _ km5th},
{"+", _ kmAug5th, _ km5th},
{"b5", _ kmDim5th, _ km5th},
{FLAT "5", _ kmDim5th, _ km5th},
{"-5", _ kmDim5th, _ km5th},
{"sus4", _ km4th, _ kmMaj3rd},
{"sus2", _ kmMaj2nd, _ kmMaj3rd},
{"sus", _ km4th, _ kmMaj3rd},
{"4", _ km4th, _ kmMaj3rd},
{"add3", _ kmMaj3rd, 0},
{"2", _ kmMaj2nd, _ kmMaj3rd},
{NULL, 0, 0}
};
int8_t VLParseChord(std::string & str, uint16_t * accidental, uint32_t * steps,
int8_t * rootPitch, uint16_t * rootAccidental)
{
int8_t pitch = VLParsePitch(str, 0, accidental);
if (pitch < 0)
return pitch;
size_t root = str.find('/');
if (root != std::string::npos) {
*rootPitch = VLParsePitch(str, root+1, rootAccidental);
if (*rootPitch < 0)
return kPitchError;
str.erase(root, 1);
} else {
*rootPitch = VLNote::kNoPitch;
*rootAccidental = 0;
}
//
// Apply modifiers
//
*steps = _ kmUnison | _ kmMaj3rd | _ km5th;
for (const VLChordModifier * mod = kModifiers; mod->fName && str.size()
&& str != "dim" && str != "m" && str != "-"; ++mod
) {
size_t pos = str.find(mod->fName);
if (pos != std::string::npos) {
str.erase(pos, strlen(mod->fName));
*steps &= ~mod->fDelSteps;
*steps |= mod->fAddSteps;
}
}
if (str == "m" || str == "-") {
*steps = (*steps & ~_ kmMaj3rd) | _ kmMin3rd;
str.erase(0, 1);
} else if (str == "dim") {
uint32_t st = *steps & (_ kmMaj3rd |_ km5th |_ kmMin7th);
*steps = (*steps ^ st) | (st >> 1); // Diminish 3rd, 5th, and 7th, if present
str.erase(0, 3);
}
return str.empty() ? pitch : kPitchError;
}