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symbolic_codegen.cc
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symbolic_codegen.cc
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#include "drake/common/symbolic_codegen.h"
#include <sstream>
#include <stdexcept>
#include <fmt/format.h>
namespace drake {
namespace symbolic {
using std::ostream;
using std::ostringstream;
using std::runtime_error;
using std::string;
using std::to_string;
using std::vector;
CodeGenVisitor::CodeGenVisitor(const vector<Variable>& parameters) {
for (vector<Variable>::size_type i = 0; i < parameters.size(); ++i) {
id_to_idx_map_.emplace(parameters[i].get_id(), i);
}
}
string CodeGenVisitor::CodeGen(const Expression& e) const {
return VisitExpression<string>(this, e);
}
string CodeGenVisitor::VisitVariable(const Expression& e) const {
const Variable& v{get_variable(e)};
const auto it{id_to_idx_map_.find(v.get_id())};
if (it == id_to_idx_map_.end()) {
throw runtime_error("Variable index is not found.");
}
return "p[" + to_string(it->second) + "]";
}
string CodeGenVisitor::VisitConstant(const Expression& e) const {
return to_string(get_constant_value(e));
}
string CodeGenVisitor::VisitAddition(const Expression& e) const {
const double c{get_constant_in_addition(e)};
const auto& expr_to_coeff_map{get_expr_to_coeff_map_in_addition(e)};
ostringstream oss;
oss << "(" << c;
for (const auto& item : expr_to_coeff_map) {
const Expression& e_i{item.first};
const double c_i{item.second};
oss << " + ";
if (c_i == 1.0) {
oss << CodeGen(e_i);
} else {
oss << "(" << c_i << " * " << CodeGen(e_i) << ")";
}
}
oss << ")";
return oss.str();
}
string CodeGenVisitor::VisitMultiplication(const Expression& e) const {
const double c{get_constant_in_multiplication(e)};
const auto& base_to_exponent_map{
get_base_to_exponent_map_in_multiplication(e)};
ostringstream oss;
oss << "(" << c;
for (const auto& item : base_to_exponent_map) {
const Expression& e_1{item.first};
const Expression& e_2{item.second};
oss << " * ";
if (is_one(e_2)) {
oss << CodeGen(e_1);
} else {
oss << "pow(" << CodeGen(e_1) << ", " << CodeGen(e_2) << ")";
}
}
oss << ")";
return oss.str();
}
// Helper method to handle unary cases.
string CodeGenVisitor::VisitUnary(const string& f, const Expression& e) const {
return f + "(" + CodeGen(get_argument(e)) + ")";
}
// Helper method to handle binary cases.
string CodeGenVisitor::VisitBinary(const string& f, const Expression& e) const {
return f + "(" + CodeGen(get_first_argument(e)) + ", " +
CodeGen(get_second_argument(e)) + ")";
}
string CodeGenVisitor::VisitPow(const Expression& e) const {
return VisitBinary("pow", e);
}
string CodeGenVisitor::VisitDivision(const Expression& e) const {
return "(" + CodeGen(get_first_argument(e)) + " / " +
CodeGen(get_second_argument(e)) + ")";
}
string CodeGenVisitor::VisitAbs(const Expression& e) const {
return VisitUnary("fabs", e);
}
string CodeGenVisitor::VisitLog(const Expression& e) const {
return VisitUnary("log", e);
}
string CodeGenVisitor::VisitExp(const Expression& e) const {
return VisitUnary("exp", e);
}
string CodeGenVisitor::VisitSqrt(const Expression& e) const {
return VisitUnary("sqrt", e);
}
string CodeGenVisitor::VisitSin(const Expression& e) const {
return VisitUnary("sin", e);
}
string CodeGenVisitor::VisitCos(const Expression& e) const {
return VisitUnary("cos", e);
}
string CodeGenVisitor::VisitTan(const Expression& e) const {
return VisitUnary("tan", e);
}
string CodeGenVisitor::VisitAsin(const Expression& e) const {
return VisitUnary("asin", e);
}
string CodeGenVisitor::VisitAcos(const Expression& e) const {
return VisitUnary("acos", e);
}
string CodeGenVisitor::VisitAtan(const Expression& e) const {
return VisitUnary("atan", e);
}
string CodeGenVisitor::VisitAtan2(const Expression& e) const {
return VisitBinary("atan2", e);
}
string CodeGenVisitor::VisitSinh(const Expression& e) const {
return VisitUnary("sinh", e);
}
string CodeGenVisitor::VisitCosh(const Expression& e) const {
return VisitUnary("cosh", e);
}
string CodeGenVisitor::VisitTanh(const Expression& e) const {
return VisitUnary("tanh", e);
}
string CodeGenVisitor::VisitMin(const Expression& e) const {
return VisitBinary("fmin", e);
}
string CodeGenVisitor::VisitMax(const Expression& e) const {
return VisitBinary("fmax", e);
}
string CodeGenVisitor::VisitCeil(const Expression& e) const {
return VisitUnary("ceil", e);
}
string CodeGenVisitor::VisitFloor(const Expression& e) const {
return VisitUnary("floor", e);
}
string CodeGenVisitor::VisitIfThenElse(const Expression&) const {
throw runtime_error("Codegen does not support if-then-else expressions.");
}
string CodeGenVisitor::VisitUninterpretedFunction(const Expression&) const {
throw runtime_error("Codegen does not support uninterpreted functions.");
}
string CodeGen(const string& function_name, const vector<Variable>& parameters,
const Expression& e) {
ostringstream oss;
// Add header for the main function.
oss << "double " << function_name << "(const double* p) {\n";
// Codegen the expression.
oss << " return " << CodeGenVisitor{parameters}.CodeGen(e) << ";\n";
// Add footer for the main function.
oss << "}\n";
// <function_name>_meta_t type.
oss << "typedef struct {\n"
" /* p: input, vector */\n"
" struct { int size; } p;\n"
"} "
<< function_name << "_meta_t;\n";
// <function_name>_meta().
oss << function_name << "_meta_t " << function_name << "_meta() { return {{"
<< parameters.size() << "}}; }\n";
return oss.str();
}
namespace internal {
void CodeGenDenseData(const string& function_name,
const vector<Variable>& parameters,
const Expression* const data, const int size,
ostream* const os) {
// Add header for the main function.
(*os) << "void " << function_name << "(const double* p, double* m) {\n";
const CodeGenVisitor visitor{parameters};
for (int i = 0; i < size; ++i) {
(*os) << " "
<< "m[" << i << "] = " << visitor.CodeGen(data[i]) << ";\n";
}
// Add footer for the main function.
(*os) << "}\n";
}
void CodeGenDenseMeta(const string& function_name, const int parameter_size,
const int rows, const int cols, ostream* const os) {
// <function_name>_meta_t type.
(*os) << "typedef struct {\n"
" /* p: input, vector */\n"
" struct { int size; } p;\n"
" /* m: output, matrix */\n"
" struct { int rows; int cols; } m;\n"
"} "
<< function_name << "_meta_t;\n";
// <function_name>_meta().
(*os) << function_name << "_meta_t " << function_name << "_meta() { return {{"
<< parameter_size << "}, {" << rows << ", " << cols << "}}; }\n";
}
void CodeGenSparseData(const string& function_name,
const vector<Variable>& parameters,
const int outer_index_size, const int non_zeros,
const int* const outer_index_ptr,
const int* const inner_index_ptr,
const Expression* const value_ptr, ostream* const os) {
// Print header.
(*os) << fmt::format(
"void {}(const double* p, int* outer_indices, int* "
"inner_indices, double* values) {{\n",
function_name);
for (int i = 0; i < outer_index_size; ++i) {
(*os) << fmt::format(" outer_indices[{0}] = {1};\n", i,
outer_index_ptr[i]);
}
for (int i = 0; i < non_zeros; ++i) {
(*os) << fmt::format(" inner_indices[{0}] = {1};\n", i,
inner_index_ptr[i]);
}
const CodeGenVisitor visitor{parameters};
for (int i = 0; i < non_zeros; ++i) {
(*os) << fmt::format(" values[{0}] = {1};\n", i,
visitor.CodeGen(value_ptr[i]));
}
// Print footer.
(*os) << "}\n";
}
void CodeGenSparseMeta(const string& function_name, const int parameter_size,
const int rows, const int cols, const int non_zeros,
const int outer_indices, const int inner_indices,
ostream* const os) {
// <function_name>_meta_t type.
(*os) << "typedef struct {\n"
" /* p: input, vector */\n"
" struct { int size; } p;\n"
" /* m: output, matrix */\n"
" struct {\n"
" int rows;\n"
" int cols;\n"
" int non_zeros;\n"
" int outer_indices;\n"
" int inner_indices;\n"
" } m;\n"
"} "
<< function_name << "_meta_t;\n";
// <function_name>_meta().
(*os) << fmt::format(
"{0}_meta_t {1}_meta() {{ return {{{{{2}}}, {{{3}, {4}, {5}, {6}, "
"{7}}}}}; }}\n",
function_name, function_name, parameter_size, rows, cols, non_zeros,
outer_indices, inner_indices);
}
} // namespace internal
std::string CodeGen(
const std::string& function_name, const std::vector<Variable>& parameters,
const Eigen::Ref<const Eigen::SparseMatrix<Expression>>& M) {
DRAKE_ASSERT(M.isCompressed());
ostringstream oss;
internal::CodeGenSparseData(function_name, parameters, M.cols() + 1,
M.nonZeros(), M.outerIndexPtr(),
M.innerIndexPtr(), M.valuePtr(), &oss);
internal::CodeGenSparseMeta(function_name, parameters.size(), M.rows(),
M.cols(), M.nonZeros(), M.cols() + 1,
M.nonZeros(), &oss);
return oss.str();
}
} // namespace symbolic
} // namespace drake