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modeldna.cpp
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modeldna.cpp
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/***************************************************************************
* Copyright (C) 2009 by BUI Quang Minh *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* 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 for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the *
* Free Software Foundation, Inc., *
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
***************************************************************************/
#include "modeldna.h"
ModelDNA::ModelDNA(PhyloTree *tree, bool count_rates)
: GTRModel(tree, count_rates)
{
}
ModelDNA::ModelDNA(const char *model_name, string model_params, StateFreqType freq, string freq_params, PhyloTree *tree, bool count_rates)
: GTRModel(tree, count_rates)
{
init(model_name, model_params, freq, freq_params);
}
void ModelDNA::init(const char *model_name, string model_params, StateFreqType freq, string freq_params)
{
assert(num_states == 4); // make sure that you create model for DNA
StateFreqType def_freq = FREQ_UNKNOWN;
name = model_name;
full_name = model_name;
string name_upper = model_name;
for (string::iterator it = name_upper.begin(); it != name_upper.end(); it++)
(*it) = toupper(*it);
if (name_upper == "JC" || name_upper == "JC69") {
name = "JC";
setRateType("000000");
def_freq = FREQ_EQUAL;
full_name = "JC (Juke and Cantor, 1969)";
} else if (name_upper == "F81") {
name = "F81";
setRateType("000000");
def_freq = FREQ_ESTIMATE;
full_name = "F81 (Felsenstein, 1981)";
} else if (name_upper == "K2P" || name_upper == "K80") {
name = "K2P";
setRateType("010010");
def_freq = FREQ_EQUAL;
full_name = "K2P (Kimura, 1980)";
} else if (name_upper == "HKY" || name_upper == "HKY85") {
name = "HKY";
setRateType("010010");
def_freq = FREQ_ESTIMATE;
full_name = "HKY (Hasegawa, Kishino and Yano, 1985)";
} else if (name_upper == "K3P" || name_upper == "K81" || name_upper=="TPM1") {
name = "K3P";
setRateType("012210");
def_freq = FREQ_EQUAL;
full_name = "K3P (Kimura, 1981)";
} else if (name_upper == "K81UF" || name_upper == "K81U" || name_upper == "K3PU" ||
name_upper == "K3PUF" || name_upper=="TPM1UF" || name_upper=="TPM1U") {
name = "K3Pu";
setRateType("012210");
def_freq = FREQ_ESTIMATE;
full_name = "K3P unequal frequencies (Kimura, 1981)";
} else if (name_upper == "TN" || name_upper == "TRN" || name_upper == "TN93") {
name = "TN";
setRateType("010020");
def_freq = FREQ_ESTIMATE;
full_name = "TN (Tamura and Nei, 1993)";
} else if (name_upper == "TNEF" || name_upper == "TRNEF" || name_upper == "TNE" || name_upper == "TRNE") {
name = "TNe";
setRateType("010020");
def_freq = FREQ_EQUAL;
full_name = "TN equal frequencies (Tamura and Nei, 1993)";
} else if (name_upper == "TPM2") {
name = "TPM2";
setRateType("121020");
def_freq = FREQ_ESTIMATE;
full_name = "TPM2 ()";
} else if (name_upper == "TPM2U" || name_upper == "TPM2UF") {
name = "TPM2u";
setRateType("121020");
def_freq = FREQ_ESTIMATE;
full_name = "TPM2 unequal frequencies ()";
} else if (name_upper == "TPM3") {
name = "TPM3";
setRateType("120120");
def_freq = FREQ_ESTIMATE;
full_name = "TPM3 ()";
} else if (name_upper == "TPM3U" || name_upper == "TPM3UF") {
name = "TPM3u";
setRateType("120120");
def_freq = FREQ_ESTIMATE;
full_name = "TPM3 unequal frequencies ()";
} else if (name_upper == "TIM" || name_upper == "TIM1") {
name = "TIM";
setRateType("012230");
def_freq = FREQ_ESTIMATE;
full_name = "TIM ()";
} else if (name_upper == "TIMEF" || name_upper == "TIME" || name_upper == "TIM1EF" || name_upper == "TIM1E") {
name = "TIMe";
setRateType("012230");
def_freq = FREQ_EQUAL;
full_name = "TIM equal frequencies";
} else if (name_upper == "TIM2") {
name = "TIM2";
setRateType("121030");
def_freq = FREQ_ESTIMATE;
full_name = "TIM2 ()";
} else if (name_upper == "TIM2EF" || name_upper == "TIM2E") {
name = "TIM2e";
setRateType("121030");
def_freq = FREQ_EQUAL;
full_name = "TIM2 equal frequencies";
} else if (name_upper == "TIM3") {
name = "TIM3";
setRateType("120130");
def_freq = FREQ_ESTIMATE;
full_name = "TIM3 ()";
} else if (name_upper == "TIM3EF" || name_upper == "TIM3E") {
name = "TIM3e";
setRateType("120130");
def_freq = FREQ_EQUAL;
full_name = "TIM3 equal frequencies";
} else if (name_upper == "TVM") {
name = "TVM";
setRateType("412310");
def_freq = FREQ_ESTIMATE;
full_name = "TVM";
} else if (name_upper == "TVMEF" || name_upper == "TVME") {
name = "TVMe";
setRateType("412310");
def_freq = FREQ_EQUAL;
full_name = "TVM equal frequencies";
} else if (name_upper == "SYM") {
name = "SYM";
setRateType("123450");
def_freq = FREQ_EQUAL;
full_name = "SYM (Zharkihk, 1994)";
} else if (name_upper == "GTR" || name_upper == "REV") {
name = "GTR";
setRateType("123450");
def_freq = FREQ_ESTIMATE;
full_name = "GTR (Tavare, 1986)";
} else {
//cout << "User-specified model "<< model_name << endl;
if (setRateType(model_name))
def_freq = FREQ_ESTIMATE;
else {
readParameters(model_name);
//name += " (user-defined)";
}
}
if (freq_params != "") {
readStateFreq(freq_params);
}
if (model_params != "") {
readRates(model_params);
}
if (freq == FREQ_UNKNOWN || def_freq == FREQ_EQUAL) freq = def_freq;
GTRModel::init(freq);
}
void ModelDNA::readRates(string str) throw(const char*) {
int nrates = *max_element(param_spec.begin(), param_spec.end());
int end_pos = 0;
int i, j;
for (j = 0; j < param_spec.length(); j++)
rates[j] = 1.0;
num_params = 0;
for (i = 0; i < nrates && end_pos < str.length(); i++) {
int new_end_pos;
double rate = 0;
if (str[end_pos] == '?') {
param_fixed[i+1] = false;
end_pos++;
rate = i + 0.4;
num_params++;
} else {
param_fixed[i+1] = true;
try {
rate = convert_double(str.substr(end_pos).c_str(), new_end_pos);
} catch (string str) {
outError(str);
}
end_pos += new_end_pos;
}
if (rate < 0.0)
outError("Negative rates found");
if (i == nrates-1 && end_pos < str.length())
outError("String too long ", str);
if (i < nrates-1 && end_pos >= str.length())
outError("Unexpected end of string ", str);
if (end_pos < str.length() && str[end_pos] != ',')
outError("Comma to separate rates not found in ", str);
end_pos++;
for (j = 0; j < param_spec.length(); j++)
if (param_spec[j] == i+1)
rates[j] = rate;
}
}
bool ModelDNA::setRateType(const char *rate_str) {
//char first_type = 127;
//char last_type = 0;
//char t = first_type;
int num_ch = strlen(rate_str);
int i;
if (num_ch != getNumRateEntries()) {
//outError("Model specification has wrong length!");
return false;
}
// only accept string of digits
for (i = 0; i < num_ch; i++)
if (!isdigit(rate_str[i])) return false;
/*
if (rate_str[num_ch-1] != '0') {
//outError("Model specification must end with '0'");
return false;
}
for (i = 0; i < num_ch; i++) {
if (rate_str[i] > last_type) last_type = rate_str[i];
if (rate_str[i] < first_type) first_type = rate_str[i];
}
if (first_type != rate_str[num_ch-1]) {
//outError("Model specification must contain digits!");
return false;
}
num_params = last_type - first_type;
param_spec = "";
for (i = 0; i < num_ch; i++) {
param_spec.push_back(rate_str[i]-first_type);
}*/
map<char,char> param_k;
num_params = 0;
param_spec = "";
// last entry get ID of 0 for easy management
param_k[rate_str[num_ch-1]] = 0;
for (i = 0; i < num_ch; i++) {
if (param_k.find(rate_str[i]) == param_k.end()) {
num_params++;
param_k[rate_str[i]] = (char)num_params;
param_spec.push_back(num_params);
} else {
param_spec.push_back(param_k[rate_str[i]]);
}
}
assert(param_spec.length() == num_ch);
double *avg_rates = new double[num_params+1];
int *num_rates = new int[num_params+1];
memset(avg_rates, 0, sizeof(double) * (num_params+1));
memset(num_rates, 0, sizeof(int) * (num_params+1));
for (i = 0; i < param_spec.size(); i++) {
avg_rates[(int)param_spec[i]] += rates[i];
num_rates[(int)param_spec[i]]++;
}
for (i = 0; i <= num_params; i++)
avg_rates[i] /= num_rates[i];
for (i = 0; i < param_spec.size(); i++) {
rates[i] = avg_rates[(int)param_spec[i]] / avg_rates[0];
}
if (verbose_mode >= VB_DEBUG) {
cout << "Initialized rates: ";
for (i = 0; i < param_spec.size(); i++)
cout << rates[i] << " ";
cout << endl;
}
param_fixed.resize(num_params+1, false);
param_fixed[0] = true; // fix the last entry
delete [] num_rates;
delete [] avg_rates;
return true;
}
int ModelDNA::getNDim() {
assert(freq_type != FREQ_UNKNOWN);
int ndim = num_params;
if (freq_type == FREQ_ESTIMATE)
ndim += num_states-1;
return ndim;
}
void ModelDNA::writeParameters(ostream &out) {
int i;
if (freq_type == FREQ_ESTIMATE) {
for (i = 0; i < num_states; i++)
out << "\t" << state_freq[i];
}
if (num_params == 0) return;
if (num_params <= 1)
out << "\t" << rates[1];
else {
int nrateout = getNumRateEntries() - 1;
for (i = 0; i < nrateout; i++)
out << "\t" << rates[i];
}
}
void ModelDNA::getVariables(double *variables) {
int i;
if (num_params > 0) {
int num_all = param_spec.length();
if (verbose_mode >= VB_MAX) {
for (i = 1; i <= num_params; i++)
cout << " estimated variables[" << i << "] = " << variables[i] << endl;
}
for (i = 0; i < num_all; i++)
if (!param_fixed[param_spec[i]]) {
rates[i] = variables[(int)param_spec[i]];
}
}
if (freq_type == FREQ_ESTIMATE) {
int ndim = getNDim();
memcpy(state_freq, variables+(ndim-num_states+2), (num_states-1)*sizeof(double));
double sum = 0;
for (i = 0; i < num_states-1; i++)
sum += state_freq[i];
state_freq[num_states-1] = 1.0 - sum;
}
}
void ModelDNA::setVariables(double *variables) {
if (num_params > 0) {
int num_all = param_spec.length();
for (int i = 0; i < num_all; i++)
if (!param_fixed[param_spec[i]])
variables[(int)param_spec[i]] = rates[i];
}
if (freq_type == FREQ_ESTIMATE) {
int ndim = getNDim();
memcpy(variables+(ndim-num_states+2), state_freq, (num_states-1)*sizeof(double));
}
}