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rdkit/Code/GraphMol/MolDraw2D/test1.cpp

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//
// Copyright (C) 2015-2017 Greg Landrum
//
// @@ All Rights Reserved @@
// This file is part of the RDKit.
// The contents are covered by the terms of the BSD license
// which is included in the file license.txt, found at the root
// of the RDKit source tree.
//
#include <RDGeneral/test.h>
#include <RDGeneral/utils.h>
#include <RDGeneral/Invariant.h>
#include <RDGeneral/RDLog.h>
#include <GraphMol/RDKitBase.h>
#include <GraphMol/SmilesParse/SmilesParse.h>
#include <GraphMol/FileParsers/MolSupplier.h>
#include <GraphMol/FileParsers/FileParsers.h>
#include <GraphMol/Depictor/RDDepictor.h>
#include <GraphMol/FileParsers/MolFileStereochem.h>
#include <GraphMol/MolTransforms/MolTransforms.h>
#include <GraphMol/MolDraw2D/MolDraw2D.h>
#include <GraphMol/MolDraw2D/MolDraw2DSVG.h>
#include <GraphMol/MolDraw2D/MolDraw2DUtils.h>
#include <iostream>
#include <fstream>
#include <sstream>
using namespace RDKit;
void test1() {
std::cout << " ----------------- Test 1" << std::endl;
{
std::string smiles = "CO[C@@H](O)C1=C(O[C@H](F)Cl)C(C#N)=C1ONNC[NH3+]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
std::ofstream outs("test1_1.svg");
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
delete m;
}
{
// make sure this works with the stringstream too:
std::string smiles = "CO[C@@H](O)C1=C(O[C@H](F)Cl)C=C1ONNC[NH3+]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
TEST_ASSERT(text.find("<svg") != std::string::npos);
TEST_ASSERT(text.find("</svg>") != std::string::npos);
delete m;
}
{
std::string smiles = "Cc1c(C(=O)NCCO)[n+](=O)c2ccccc2n1[O-]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
std::ofstream outs("test1_2.svg");
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
delete m;
}
{
std::string smiles = "Cc1c(C(=O)NCCO)[n+](=O)c2ccccc2n1[O-]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
std::ofstream outs("test1_3.svg");
MolDraw2DSVG drawer(300, 300, outs);
std::vector<int> highlights;
highlights.push_back(0);
highlights.push_back(4);
highlights.push_back(5);
drawer.drawMolecule(*m, &highlights);
drawer.finishDrawing();
outs.flush();
delete m;
}
{
std::string smiles = "CO[C@@H](O)C1=C(O[C@H](F)Cl)C(C#N)=C1ONNC[NH3+]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
std::ofstream outs("test1_4.svg");
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions().additionalAtomLabelPadding = 0.25;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
delete m;
}
{
// in this one, all three double bonds in the phenyl ring need to be inside
// the aromatic ring. There was a time when one of them strayed into the
// aliphatic ring.
std::string smiles =
"CN1CC[C@]23c4c5ccc(O)c4O[C@H]2[C@@H](O)C=C[C@H]3[C@H]1C5";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
std::ofstream outs("test1_5.svg");
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
delete m;
}
{
// Here, the H should be between the two bonds off the N, not
// on top of the vertical one.
std::string smiles = "C[NH+](C)CCC";
std::string nameBase = "test1_6";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
std::ofstream outs("test1_6.svg");
outs << txt;
delete m;
}
std::cout << " Done" << std::endl;
}
#ifdef RDK_BUILD_CAIRO_SUPPORT
#include <cairo.h>
#include "MolDraw2DCairo.h"
void test2() {
std::cout << " ----------------- Test 2" << std::endl;
{
std::string smiles = "CO[C@@H](O)C1=C(O[C@H](F)Cl)C(C#N)=C1ONNC[NH3+]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText("test2_1.png");
delete m;
}
{
std::string smiles = "Cc1c(C(=O)NCCO)[n+](=O)c2ccccc2n1[O-]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string drawing = drawer.getDrawingText();
TEST_ASSERT(drawing.size() > 0);
std::ofstream ofs("test2_2.png");
ofs.write(drawing.c_str(), drawing.size());
delete m;
}
{
// ensure we still work with a client-provided drawing context
std::string smiles = "Cc1c(C(=O)NCCO)[n+](=O)c2ccccc2n1[O-]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
cairo_surface_t *surface =
cairo_image_surface_create(CAIRO_FORMAT_ARGB32, 300, 300);
cairo_t *cr = cairo_create(surface);
MolDraw2DCairo drawer(300, 300, cr);
std::vector<int> highlights;
highlights.push_back(0);
highlights.push_back(4);
highlights.push_back(5);
drawer.drawMolecule(*m, &highlights);
drawer.finishDrawing();
cairo_destroy(cr);
cairo_surface_write_to_png(surface, "test2_3.png");
cairo_surface_destroy(surface);
delete m;
}
std::cout << " Done" << std::endl;
}
#else // RDK_BUILD_CAIRO_SUPPORT
void test2() {}
#endif
void test3() {
std::cout << " ----------------- Test 3" << std::endl;
{
std::string smiles = "C1CC1CC1ON1";
std::string nameBase = "test3_1";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
static const int ha[] = {0, 3, 4, 5};
std::vector<int> highlight_atoms(ha, ha + sizeof(ha) / sizeof(int));
std::map<int, std::string> atomLabels;
atomLabels[2] = "C1";
atomLabels[1] = "a<sub>3</sub><sup>4</sup>";
atomLabels[0] = "[CH2;X2:4]";
atomLabels[6] = "[NH2+:7]";
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions().atomLabels = atomLabels;
drawer.drawMolecule(*m, &highlight_atoms);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions().atomLabels = atomLabels;
drawer.drawMolecule(*m, &highlight_atoms);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles = "C1CC1CC1ON1";
std::string nameBase = "test3_2";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
static const int ha[] = {0, 3, 4, 5};
std::vector<int> highlight_atoms(ha, ha + sizeof(ha) / sizeof(int));
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions().circleAtoms = false;
drawer.drawMolecule(*m, &highlight_atoms);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions().circleAtoms = false;
drawer.drawMolecule(*m, &highlight_atoms);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles = "Cc1c(C(=O)NCCO)[n+](=O)c2ccccc2n1[O-]";
std::string nameBase = "test3_3";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
static const int ha[] = {11, 12, 13, 14, 15, 16};
std::vector<int> highlight_atoms(ha, ha + sizeof(ha) / sizeof(int));
std::map<int, DrawColour> highlight_colors;
highlight_colors[12] = DrawColour(0, 0, 1);
highlight_colors[13] = DrawColour(0, 1, 0);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions().circleAtoms = true;
drawer.drawMolecule(*m, &highlight_atoms, &highlight_colors);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions().circleAtoms = true;
drawer.drawMolecule(*m, &highlight_atoms, &highlight_colors);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles = "Cc1c(C(=O)NCCO)[n+](=O)c2ccccc2n1[O-]";
std::string nameBase = "test3_4";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
static const int ha[] = {11, 12, 13, 14, 15, 16, 3};
std::vector<int> highlight_atoms(ha, ha + sizeof(ha) / sizeof(int));
std::map<int, DrawColour> highlight_colors;
highlight_colors[12] = DrawColour(.5, .5, 1);
highlight_colors[13] = DrawColour(.5, 1, .5);
MolDrawOptions options;
options.circleAtoms = true;
options.highlightColour = DrawColour(1, .5, .5);
options.continuousHighlight = true;
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions() = options;
drawer.drawMolecule(*m, &highlight_atoms, &highlight_colors);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions() = options;
drawer.drawMolecule(*m, &highlight_atoms, &highlight_colors);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles =
"CCOC(=O)Nc1ccc(SCC2COC(Cn3ccnc3)(c3ccc(Cl)cc3Cl)O2)cc1";
std::string nameBase = "test3_5";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
static const int ha[] = {17, 18, 19, 20, 21, 6, 7, 8, 9, 31, 32};
std::vector<int> highlight_atoms(ha, ha + sizeof(ha) / sizeof(int));
std::map<int, DrawColour> highlight_colors;
MolDrawOptions options;
options.circleAtoms = true;
options.highlightColour = DrawColour(1, .5, .5);
options.continuousHighlight = true;
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(200, 200);
drawer.drawOptions() = options;
drawer.drawMolecule(*m, &highlight_atoms, &highlight_colors);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(200, 200, outs);
drawer.drawOptions() = options;
drawer.drawMolecule(*m, &highlight_atoms, &highlight_colors);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles =
"CCOC(=O)Nc1ccc(SCC2COC(Cn3ccnc3)(c3ccc(Cl)cc3Cl)O2)cc1";
std::string nameBase = "test3_6";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDrawOptions options;
static const int ha1[] = {17, 18, 19, 20, 21};
std::vector<int> highlight_atoms1(ha1, ha1 + sizeof(ha1) / sizeof(int));
options.atomRegions.push_back(highlight_atoms1);
static const int ha2[] = {6, 7, 8, 9, 31, 32};
std::vector<int> highlight_atoms2(ha2, ha2 + sizeof(ha2) / sizeof(int));
options.atomRegions.push_back(highlight_atoms2);
options.includeAtomTags = true;
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions() = options;
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions() = options;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles =
"CCOC(=O)Nc1ccc(SCC2COC(Cn3ccnc3)(c3ccc(Cl)cc3Cl)O2)cc1";
std::string nameBase = "test3_7";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDrawOptions options;
options.continuousHighlight = true;
static const int ha[] = {17, 20, 25};
std::vector<int> highlight_atoms(ha, ha + sizeof(ha) / sizeof(int));
std::map<int, double> highlight_radii;
highlight_radii[17] = 0.5;
highlight_radii[20] = 1.0;
std::map<int, DrawColour> highlight_colors;
highlight_colors[17] = DrawColour(.5, .5, 1.);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions() = options;
drawer.drawMolecule(*m, &highlight_atoms, &highlight_colors,
&highlight_radii);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions() = options;
drawer.drawMolecule(*m, &highlight_atoms, &highlight_colors,
&highlight_radii);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
std::cout << " Done" << std::endl;
}
void test4() {
std::cout << " ----------------- Test 4" << std::endl;
{
std::string fName = getenv("RDBASE");
fName += "/Code/GraphMol/MolDraw2D/test_dir";
fName += "/clash.mol";
ROMol *m = MolFileToMol(fName);
std::string nameBase = "test4_1";
TEST_ASSERT(m);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
std::cout << " Done" << std::endl;
}
void test5() {
std::cout << " ----------------- Test 5" << std::endl;
{
std::string smiles = "*c1cc(*)cc(*)c1";
std::string nameBase = "test5_1";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDrawOptions options;
options.dummiesAreAttachments = true;
options.atomLabels[0] = "R1";
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions() = options;
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions() = options;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles = "*C";
std::string nameBase = "test5_2";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m, nullptr, true);
WedgeMolBonds(*m, &(m->getConformer()));
MolDrawOptions options;
options.dummiesAreAttachments = true;
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions() = options;
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions() = options;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles = "CC(F)(Cl)Br";
std::string nameBase = "test5_3";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
m->getBondBetweenAtoms(1, 2)->setBondDir(Bond::UNKNOWN);
RDDepict::compute2DCoords(*m, nullptr, true);
WedgeMolBonds(*m, &(m->getConformer()));
MolDrawOptions options;
options.dummiesAreAttachments = true;
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions() = options;
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions() = options;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
std::cout << " Done" << std::endl;
}
#ifdef RDK_TEST_MULTITHREADED
#include <thread>
#include <future>
namespace {
void runblock(const std::vector<ROMol *> &mols,
const std::vector<std::string> &refData, unsigned int count,
unsigned int idx) {
for (unsigned int j = 0; j < 200; j++) {
for (unsigned int i = 0; i < mols.size(); ++i) {
if (i % count != idx) {
continue;
}
ROMol *mol = mols[i];
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*mol);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
TEST_ASSERT(text == refData[i]);
}
}
}
} // namespace
void testMultiThreaded() {
std::cout << " ----------------- Test multi-threaded drawing" << std::endl;
std::string fName = getenv("RDBASE");
fName += "/Data/NCI/first_200.props.sdf";
RDKit::SDMolSupplier suppl(fName);
std::cerr << "reading molecules" << std::endl;
std::vector<ROMol *> mols;
while (!suppl.atEnd() && mols.size() < 100) {
ROMol *mol = nullptr;
try {
mol = suppl.next();
} catch (...) {
continue;
}
if (!mol) {
continue;
}
mols.push_back(mol);
}
std::cerr << "generating reference drawings" << std::endl;
std::vector<std::string> refData(mols.size());
for (unsigned int i = 0; i < mols.size(); ++i) {
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*(mols[i]));
drawer.finishDrawing();
refData[i] = drawer.getDrawingText();
TEST_ASSERT(refData[i].find("<svg") != std::string::npos);
TEST_ASSERT(refData[i].find("</svg>") != std::string::npos);
}
std::vector<std::future<void>> tg;
unsigned int count = 4;
std::cerr << "processing" << std::endl;
for (unsigned int i = 0; i < count; ++i) {
std::cerr << " launch :" << i << std::endl;
std::cerr.flush();
tg.emplace_back(
std::async(std::launch::async, runblock, mols, refData, count, i));
}
for (auto &fut : tg) {
fut.get();
}
for (auto &&mol : mols) {
delete mol;
}
std::cerr << " Done" << std::endl;
}
#else
void testMultiThreaded() {}
#endif
void test6() {
std::cout << " ----------------- Test 6 (atom labels)" << std::endl;
{
std::string smiles = "CC[13CH2][CH2:7][CH-]C[15NH2+]C";
std::string nameBase = "test5_1";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
std::ofstream outs("test6_1.svg");
outs << txt;
// TEST_ASSERT(txt.find("<svg")!=std::string::npos);
delete m;
}
std::cerr << " Done" << std::endl;
}
void test7() {
std::cout << " ----------------- Test 7 (backgrounds)" << std::endl;
std::string smiles = "CCC";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
{
std::string nameBase = "test7_1";
MolDraw2DSVG drawer(300, 300);
drawer.drawOptions().clearBackground = false;
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
std::ofstream outs((nameBase + ".svg").c_str());
outs << txt;
TEST_ASSERT(txt.find("<svg") != std::string::npos);
TEST_ASSERT(txt.find("<rect") == std::string::npos);
}
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
std::string nameBase = "test7_1";
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions().clearBackground = false;
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::string nameBase = "test7_2";
MolDraw2DSVG drawer(300, 300);
drawer.drawOptions().backgroundColour = DrawColour(.8, .8, .8);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
std::ofstream outs((nameBase + ".svg").c_str());
outs << txt;
TEST_ASSERT(txt.find("<svg") != std::string::npos);
TEST_ASSERT(txt.find("<rect") != std::string::npos);
TEST_ASSERT(txt.find("fill:#CCCCCC") != std::string::npos);
}
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
std::string nameBase = "test7_2";
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions().backgroundColour = DrawColour(.8, .8, .8);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
delete m;
std::cerr << " Done" << std::endl;
}
void test8PrepareMolForDrawing() {
std::cout << " ----------------- Test8: PrepareMolDrawing" << std::endl;
{
std::string smiles = "c1ccccc1[C@H](F)Cl";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
{
RWMol nm(*m);
TEST_ASSERT(nm.getNumAtoms() == 9)
MolDraw2DUtils::prepareMolForDrawing(nm);
TEST_ASSERT(nm.getNumAtoms() == 9); // this is a test for github #982
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(!nm.getConformer().is3D());
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getBondType() !=
Bond::AROMATIC);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getIsAromatic());
TEST_ASSERT(nm.getBondBetweenAtoms(6, 7)->getBondType() == Bond::SINGLE);
TEST_ASSERT(nm.getBondBetweenAtoms(6, 7)->getBondDir() ==
Bond::BEGINWEDGE);
// make sure we can do it again:
MolDraw2DUtils::prepareMolForDrawing(nm);
TEST_ASSERT(nm.getNumAtoms() == 9);
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getBondType() !=
Bond::AROMATIC);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getIsAromatic());
}
{
RWMol nm(*m);
TEST_ASSERT(nm.getNumAtoms() == 9)
MolDraw2DUtils::prepareMolForDrawing(nm, false);
TEST_ASSERT(nm.getNumAtoms() == 9);
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getBondType() ==
Bond::AROMATIC);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getIsAromatic());
}
{
RWMol nm(*m);
TEST_ASSERT(nm.getNumAtoms() == 9)
MolDraw2DUtils::prepareMolForDrawing(nm, false, false);
TEST_ASSERT(nm.getNumAtoms() == 9);
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getBondType() ==
Bond::AROMATIC);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getIsAromatic());
}
{
RWMol nm(*m);
TEST_ASSERT(nm.getNumAtoms() == 9)
MolDraw2DUtils::prepareMolForDrawing(nm, false, true);
TEST_ASSERT(nm.getNumAtoms() == 9);
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getBondType() ==
Bond::AROMATIC);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getIsAromatic());
}
{
RWMol nm(*m);
TEST_ASSERT(nm.getNumAtoms() == 9)
MolDraw2DUtils::prepareMolForDrawing(nm, true, true, false);
TEST_ASSERT(nm.getNumAtoms() == 9);
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getBondType() !=
Bond::AROMATIC);
TEST_ASSERT(nm.getBondBetweenAtoms(0, 1)->getIsAromatic());
TEST_ASSERT(nm.getBondBetweenAtoms(6, 7)->getBondType() == Bond::SINGLE);
TEST_ASSERT(nm.getBondBetweenAtoms(6, 7)->getBondDir() == Bond::NONE);
}
{
// by default we don't force conformer generation
RWMol nm(*m);
RDDepict::compute2DCoords(nm);
nm.getConformer().set3D(true); // it's not really, we're cheating
TEST_ASSERT(nm.getNumAtoms() == 9)
MolDraw2DUtils::prepareMolForDrawing(nm);
TEST_ASSERT(nm.getNumAtoms() == 9);
TEST_ASSERT(nm.getNumConformers() == 1); // we have a conformer anyway
TEST_ASSERT(nm.getConformer().is3D());
// but if we do force, it blows out that conformer:
MolDraw2DUtils::prepareMolForDrawing(nm, true, true, true, true);
TEST_ASSERT(!nm.getConformer().is3D());
}
delete m;
}
{
std::string smiles = "C1CC[C@H]2NCCCC2C1";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
{
RWMol nm(*m);
TEST_ASSERT(nm.getNumAtoms() == 10)
MolDraw2DUtils::prepareMolForDrawing(nm);
TEST_ASSERT(nm.getNumAtoms() == 11);
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(!nm.getConformer().is3D());
TEST_ASSERT(nm.getBondBetweenAtoms(3, 10)->getBondType() == Bond::SINGLE);
TEST_ASSERT(nm.getBondBetweenAtoms(3, 10)->getBondDir() ==
Bond::BEGINDASH);
// make sure we can do it again:
MolDraw2DUtils::prepareMolForDrawing(nm);
TEST_ASSERT(nm.getNumAtoms() == 11);
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(nm.getBondBetweenAtoms(3, 10)->getBondType() == Bond::SINGLE);
TEST_ASSERT(nm.getBondBetweenAtoms(3, 10)->getBondDir() ==
Bond::BEGINDASH);
}
{
RWMol nm(*m);
TEST_ASSERT(nm.getNumAtoms() == 10)
MolDraw2DUtils::prepareMolForDrawing(nm, false, false);
TEST_ASSERT(nm.getNumAtoms() == 10);
TEST_ASSERT(nm.getNumConformers() == 1);
TEST_ASSERT(nm.getBondBetweenAtoms(3, 2)->getBondType() == Bond::SINGLE);
TEST_ASSERT(nm.getBondBetweenAtoms(3, 2)->getBondDir() ==
Bond::BEGINWEDGE);
}
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub781() {
std::cout << " ----------------- Test Github #781: Rendering single-atom "
"molecules"
<< std::endl;
{
std::string smiles = "C";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
TEST_ASSERT(txt.find("<svg") != std::string::npos);
TEST_ASSERT(txt.find("<tspan>CH</tspan>") != std::string::npos);
delete m;
}
{
std::string smiles = "O";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
TEST_ASSERT(txt.find("<svg") != std::string::npos);
TEST_ASSERT(txt.find("<tspan>OH</tspan>") == std::string::npos);
delete m;
}
{
std::string smiles = "[C]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
TEST_ASSERT(txt.find("<svg") != std::string::npos);
TEST_ASSERT(txt.find("<tspan>C</tspan>") != std::string::npos);
delete m;
}
{
std::string smiles = "C.CC.[Cl-]";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
TEST_ASSERT(txt.find("<svg") != std::string::npos);
TEST_ASSERT(txt.find("<tspan>CH</tspan>") != std::string::npos);
TEST_ASSERT(txt.find("<tspan>Cl</tspan>") != std::string::npos);
delete m;
}
{ // empty molecule
auto *m = new ROMol();
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
TEST_ASSERT(txt.find("<svg") != std::string::npos);
TEST_ASSERT(txt.find("<tspan>") == std::string::npos);
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub774() {
std::cout << " ----------------- Test Github774" << std::endl;
{
std::string smiles =
"Cc1c(C(=O)NCC[NH3+])[n+](=O)c2cc(CC[C@](F)(Cl)Br)ccc2n1[O-]";
std::string nameBase = "test774_1";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolOps::Kekulize(*m);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
Point2D ocoords(1.0, 2.0);
Point2D dcoords =
drawer.getAtomCoords(std::make_pair(ocoords.x, ocoords.y));
Point2D acoords = drawer.getDrawCoords(dcoords);
TEST_ASSERT(feq(acoords.x, 1.0));
TEST_ASSERT(feq(acoords.y, 2.0));
}
// m->setProp("_Name","mol");
// std::cerr<<MolToMolBlock(*m)<<std::endl;
delete m;
}
{
std::string smiles =
"CC(=O)\\C=C\\CC1[C@H]2N([C@@H](C(=O)O)C(C)(C)S2(=O)=O)C1=O";
std::string nameBase = "test774_2";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolOps::Kekulize(*m);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
// m->setProp("_Name","mol");
// std::cerr<<MolToMolBlock(*m)<<std::endl;
delete m;
}
std::cerr << " Done" << std::endl;
}
void test9MolLegends() {
std::cout << " ----------------- Test 9 (molecule legends)" << std::endl;
{
std::string smiles = "CC[13CH2][CH2:7][CH-]C[15NH2+]C";
std::string nameBase = "test5_1";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m, "mol legend");
drawer.finishDrawing();
std::string txt = drawer.getDrawingText();
std::ofstream outs("test9_1.svg");
outs << txt;
// TEST_ASSERT(txt.find("<svg")!=std::string::npos);
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub852() {
std::cout << " ----------------- Test Github852: Lines used to wedge bonds "
"are too thick"
<< std::endl;
{
std::string smiles =
"COc1cccc(NC(=O)[C@H](Cl)Sc2nc(ns2)c3ccccc3Cl)c1"; // made up
std::string nameBase = "test852_1";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles =
"C[C@]12CC[C@@H]3c4ccc(cc4CC[C@H]3[C@@H]1CC[C@@H]2O)O"; // estradiol
std::string nameBase = "test852_2";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub860() {
std::cout << " ----------------- Test Github860: Atom symbols in wrong order "
"if bond comes from right"
<< std::endl;
{
std::string smiles = "[15NH3+:1]-C#C-[15NH3+:2]";
std::string nameBase = "test860_1";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles =
"[15NH3+:1]-C#C-C([15NH3+:2])([15NH3+:3])-C#C-[15NH3+:4]";
std::string nameBase = "test860_2";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
{
std::string smiles = "[15NH3+:1]-CCCCCCCC-[15NH3+:4]";
std::string nameBase = "test860_3";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
drawer.writeDrawingText(nameBase + ".png");
}
#endif
{
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
}
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub910() {
std::cout << " ----------------- Test Github #910: ugly coordinates "
"generated for peptide chains"
<< std::endl;
// this really isn't much of a test, but it does help visually confirm that
// things are actually ok
{
// this is a ChEMBL molecule
std::string smiles =
"CSCC[C@H](NC(=O)[C@@H](CCC(N)=O)NC(=O)[C@@H](N)Cc1c[nH]c2ccccc12)C(="
"O)"
"NCC(=O)N[C@@H](Cc1c[nH]cn1)C(=O)N[C@@H](CO)C(=O)O";
ROMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
std::ofstream outs("test910_1.svg");
MolDraw2DSVG drawer(600, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
delete m;
}
{ // now with Hs
// this is a ChEMBL molecule
std::string smiles =
"CSCC[C@H](NC(=O)[C@@H](CCC(N)=O)NC(=O)[C@@H](N)Cc1c[nH]c2ccccc12)C(="
"O)"
"NCC(=O)N[C@@H](Cc1c[nH]cn1)C(=O)N[C@@H](CO)C(=O)O";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
std::ofstream outs("test910_2.svg");
MolDraw2DSVG drawer(600, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.flush();
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub932() {
std::cout << " ----------------- Test Github #932: mistake in SVG for "
"wedged bonds"
<< std::endl;
{
std::string smiles = "CC[C@](F)(Cl)Br";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
TEST_ASSERT(text.find("evenoddstroke") == std::string::npos);
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub953() {
std::cout << " ----------------- Test Github #953: default color should "
"not be cyan"
<< std::endl;
{
std::string smiles = "[Nb]";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
TEST_ASSERT(text.find("#00FFFF") == std::string::npos);
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub983() {
std::cout << " ----------------- Test Github #983: wedged bonds between "
"chiral centers drawn improperly"
<< std::endl;
{
// this has an ugly drawing (wedged bond between chiral centers) but we
// force it to be drawn that way just to check.
std::string mb =
"\n\
Mrv1561 07241608122D\n\
\n\
6 5 0 0 0 0 999 V2000\n\
8.6830 -9.5982 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
9.3975 -9.1857 0.0000 C 0 0 2 0 0 0 0 0 0 0 0 0\n\
10.1120 -9.5982 0.0000 C 0 0 1 0 0 0 0 0 0 0 0 0\n\
9.3975 -8.3607 0.0000 Cl 0 0 0 0 0 0 0 0 0 0 0 0\n\
10.8264 -9.1857 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
10.1120 -10.4232 0.0000 F 0 0 0 0 0 0 0 0 0 0 0 0\n\
1 2 1 0 0 0 0\n\
3 5 1 0 0 0 0\n\
3 2 1 1 0 0 0\n\
2 4 1 1 0 0 0\n\
3 6 1 0 0 0 0\n\
M END";
RWMol *m = MolBlockToMol(mb, false, false);
TEST_ASSERT(m);
MolOps::sanitizeMol(*m);
MolDraw2DUtils::prepareMolForDrawing(*m);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test983_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("<path class='bond-1' d='M 125.352,114.634"
" L 179.234,90.896 L 172.848,79.8357 Z'"
" style='fill:#000000") != std::string::npos);
delete m;
}
{
std::string mb =
"\n\
Mrv1561 07241616282D\n\
\n\
12 12 0 0 1 0 999 V2000\n\
10.4656 -7.9623 0.0000 F 0 0 0 0 0 0 0 0 0 0 0 0\n\
9.7496 -8.3748 0.0000 C 0 0 1 0 0 0 0 0 0 0 0 0\n\
8.9075 -9.4746 0.0000 C 0 0 2 0 0 0 0 0 0 0 0 0\n\
7.5671 -9.4746 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
8.2373 -8.9934 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
8.6497 -10.2651 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
9.0392 -7.9623 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
7.8249 -10.2651 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
7.1547 -10.1792 0.0000 F 0 0 0 0 0 0 0 0 0 0 0 0\n\
6.8567 -9.0622 0.0000 F 0 0 0 0 0 0 0 0 0 0 0 0\n\
10.3338 -8.9591 0.0000 O 0 0 0 0 0 0 0 0 0 0 0 0\n\
8.6841 -8.6669 0.0000 H 0 0 0 0 0 0 0 0 0 0 0 0\n\
2 1 1 0 0 0 0\n\
3 2 1 0 0 0 0\n\
4 5 1 0 0 0 0\n\
5 3 1 0 0 0 0\n\
6 3 1 0 0 0 0\n\
7 2 1 0 0 0 0\n\
8 6 1 0 0 0 0\n\
9 4 1 0 0 0 0\n\
10 4 1 0 0 0 0\n\
2 11 1 6 0 0 0\n\
3 12 1 6 0 0 0\n\
8 4 1 0 0 0 0\n\
M END";
RWMol *m = MolBlockToMol(mb);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
TEST_ASSERT(m->getBondBetweenAtoms(2, 1)->getBondType() == Bond::SINGLE);
TEST_ASSERT(m->getBondBetweenAtoms(2, 1)->getBondDir() == Bond::NONE);
TEST_ASSERT(m->getBondBetweenAtoms(2, 4)->getBondType() == Bond::SINGLE);
TEST_ASSERT(m->getBondBetweenAtoms(2, 4)->getBondDir() == Bond::BEGINWEDGE);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test983_2.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("<path class='bond-3' d='M 102.962,116.968 L"
" 77.0085,93.6784 L 72.5976,99.8217 Z'"
" style='fill:#000000;") != std::string::npos);
MolDraw2DUtils::prepareMolForDrawing(*m);
TEST_ASSERT(m->getBondBetweenAtoms(2, 1)->getBondType() == Bond::SINGLE);
TEST_ASSERT(m->getBondBetweenAtoms(2, 1)->getBondDir() == Bond::NONE);
TEST_ASSERT(m->getBondBetweenAtoms(2, 4)->getBondType() == Bond::SINGLE);
TEST_ASSERT(m->getBondBetweenAtoms(2, 4)->getBondDir() == Bond::BEGINWEDGE);
RWMol nm(*m);
MolDraw2DUtils::prepareMolForDrawing(nm);
TEST_ASSERT(nm.getBondBetweenAtoms(2, 1)->getBondType() == Bond::SINGLE);
TEST_ASSERT(nm.getBondBetweenAtoms(2, 1)->getBondDir() == Bond::NONE);
TEST_ASSERT(nm.getBondBetweenAtoms(2, 4)->getBondType() == Bond::SINGLE);
TEST_ASSERT(nm.getBondBetweenAtoms(2, 4)->getBondDir() == Bond::BEGINWEDGE);
delete m;
}
std::cerr << " Done" << std::endl;
}
void testDeuteriumTritium() {
std::cout << " ----------------- Test Deuterium, Tritium" << std::endl;
{
std::string deuterium = "C([2H])([2H])([2H])[2H]";
ROMol *m = SmilesToMol(deuterium);
RDDepict::compute2DCoords(*m);
std::string nameBase = "testNoDeuterium";
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions().atomLabelDeuteriumTritium = false;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.close();
std::ifstream ins((nameBase + ".svg").c_str());
bool ok = true;
unsigned int count = 0;
while (ok) {
std::string line;
std::getline(ins, line);
ok = (ins.good() && !ins.eof());
if (!ok) {
continue;
}
if ((line.find("baseline-shift:super") != std::string::npos) &&
(line.find(">2<") != std::string::npos) &&
(line.find(">H<") != std::string::npos)) {
++count;
}
}
TEST_ASSERT(count == 4);
delete m;
}
{
std::string tritium = "C([3H])([3H])([3H])[3H]";
ROMol *m = SmilesToMol(tritium);
RDDepict::compute2DCoords(*m);
std::string nameBase = "testNoTritium";
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions().atomLabelDeuteriumTritium = false;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.close();
std::ifstream ins((nameBase + ".svg").c_str());
bool ok = true;
unsigned int count = 0;
while (ok) {
std::string line;
std::getline(ins, line);
ok = (ins.good() && !ins.eof());
if (!ok) {
continue;
}
if ((line.find("baseline-shift:super") != std::string::npos) &&
(line.find(">3<") != std::string::npos) &&
(line.find(">H<") != std::string::npos)) {
++count;
}
}
TEST_ASSERT(count == 4);
delete m;
}
{
std::string deuterium = "C([2H])([2H])([2H])[2H]";
ROMol *m = SmilesToMol(deuterium);
RDDepict::compute2DCoords(*m);
std::string nameBase = "testDeuterium";
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions().atomLabelDeuteriumTritium = true;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.close();
std::ifstream ins((nameBase + ".svg").c_str());
bool ok = true;
unsigned int count = 0;
while (ok) {
std::string line;
std::getline(ins, line);
ok = (ins.good() && !ins.eof());
if (!ok) {
continue;
}
if ((line.find("baseline-shift:super") == std::string::npos) &&
(line.find(">2<") == std::string::npos) &&
(line.find(">D<") != std::string::npos)) {
++count;
}
}
TEST_ASSERT(count == 4);
delete m;
}
{
std::string tritium = "C([3H])([3H])([3H])[3H]";
ROMol *m = SmilesToMol(tritium);
RDDepict::compute2DCoords(*m);
std::string nameBase = "testTritium";
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawOptions().atomLabelDeuteriumTritium = true;
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.close();
std::ifstream ins((nameBase + ".svg").c_str());
bool ok = true;
unsigned int count = 0;
while (ok) {
std::string line;
std::getline(ins, line);
ok = (ins.good() && !ins.eof());
if (!ok) {
continue;
}
if ((line.find("baseline-shift:super") == std::string::npos) &&
(line.find(">3<") == std::string::npos) &&
(line.find(">T<") != std::string::npos)) {
++count;
}
}
TEST_ASSERT(count == 4);
delete m;
}
std::cerr << " Done" << std::endl;
}
void testCrossedBonds() {
std::cerr << " ----------------- Test crossed bonds" << std::endl;
{
std::string smiles = "CC=CC";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
m->getBondWithIdx(1)->setBondDir(Bond::EITHERDOUBLE);
MolDraw2DUtils::prepareMolForDrawing(*m);
std::string nameBase = "crossed_bonds";
std::ofstream outs((nameBase + ".svg").c_str());
MolDraw2DSVG drawer(300, 300, outs);
drawer.drawMolecule(*m);
drawer.finishDrawing();
outs.close();
delete m;
}
std::cerr << " Done" << std::endl;
}
void test10DrawSecondMol() {
std::cout << " ----------------- Testing drawing a second molecule"
<< std::endl;
std::string mb1 =
"\n\
Mrv1561 08301611102D\n\
\n\
3 2 0 0 0 0 999 V2000\n\
-2.5670 1.3616 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
-1.8525 1.7741 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
-1.1380 1.3616 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
1 2 1 0 0 0 0\n\
2 3 1 0 0 0 0\n\
M END";
RWMol *m1 = MolBlockToMol(mb1);
TEST_ASSERT(m1);
MolOps::sanitizeMol(*m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
RDGeom::Point3D c1 = MolTransforms::computeCentroid(m1->getConformer());
for (unsigned int i = 0; i < m1->getNumAtoms(); ++i) {
RDGeom::Point3D &p = m1->getConformer().getAtomPos(i);
p -= c1;
}
std::string mb2 =
"\n\
Mrv1561 08301611122D\n\
\n\
3 2 0 0 0 0 999 V2000\n\
-1.9900 2.2136 0.0000 O 0 0 0 0 0 0 0 0 0 0 0 0\n\
-1.5775 1.4991 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
-1.9900 0.7846 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
1 2 1 0 0 0 0\n\
2 3 1 0 0 0 0\n\
M END";
RWMol *m2 = MolBlockToMol(mb2);
TEST_ASSERT(m2);
MolOps::sanitizeMol(*m2);
MolDraw2DUtils::prepareMolForDrawing(*m2);
RDGeom::Point3D c2 = MolTransforms::computeCentroid(m2->getConformer());
for (unsigned int i = 0; i < m2->getNumAtoms(); ++i) {
RDGeom::Point3D &p = m2->getConformer().getAtomPos(i);
p -= c2;
}
{
MolDraw2DSVG drawer(200, 200);
drawer.drawOptions().padding = 0.2;
drawer.drawMolecule(*m1);
drawer.drawMolecule(*m2);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test10_1.svg");
outs << text;
outs.flush();
}
{
MolDraw2DSVG drawer(200, 200);
drawer.drawOptions().padding = 0.2;
drawer.drawMolecule(*m2);
drawer.drawMolecule(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test10_2.svg");
outs << text;
outs.flush();
}
{
MolDraw2DSVG drawer(400, 200, 200, 200);
drawer.drawOptions().padding = 0.2;
drawer.drawMolecule(*m1);
drawer.setOffset(200, 0);
drawer.drawMolecule(*m2);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test10_3.svg");
outs << text;
outs.flush();
}
{
MolDraw2DSVG drawer(200, 400, 200, 200);
drawer.drawOptions().padding = 0.2;
drawer.drawMolecule(*m1);
drawer.setOffset(0, 200);
drawer.drawMolecule(*m2);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test10_4.svg");
outs << text;
outs.flush();
}
{
MolDraw2DSVG drawer(200, 400, 200, 200);
Point2D minv(1000, 1000);
Point2D maxv(-1000, -1000);
for (unsigned int i = 0; i < m1->getNumAtoms(); ++i) {
const RDGeom::Point3D &pti = m1->getConformer().getAtomPos(i);
minv.x = std::min(minv.x, pti.x);
minv.y = std::min(minv.y, pti.y);
maxv.x = std::max(maxv.x, pti.x);
maxv.y = std::max(maxv.y, pti.y);
}
drawer.setScale(200, 200, minv, maxv);
drawer.drawMolecule(*m1);
drawer.setOffset(0, 200);
drawer.drawMolecule(*m2);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test10_5.svg");
outs << text;
outs.flush();
}
{
MolDraw2DSVG drawer(200, 400, 200, 200);
Point2D minv(1000, 1000);
Point2D maxv(-1000, -1000);
for (unsigned int i = 0; i < m1->getNumAtoms(); ++i) {
const RDGeom::Point3D &pti = m1->getConformer().getAtomPos(i);
minv.x = std::min(minv.x, pti.x);
minv.y = std::min(minv.y, pti.y);
maxv.x = std::max(maxv.x, pti.x);
maxv.y = std::max(maxv.y, pti.y);
}
drawer.drawOptions().padding = 0.2;
drawer.setScale(200, 200, minv, maxv);
drawer.drawMolecule(*m1);
drawer.setOffset(0, 200);
drawer.drawMolecule(*m2);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test10_6.svg");
outs << text;
outs.flush();
}
delete m1;
delete m2;
std::cerr << " Done" << std::endl;
}
void test11DrawMolGrid() {
std::cout << " ----------------- Testing drawing a grid of molecules"
<< std::endl;
std::string smiles =
"COc1cccc(NC(=O)[C@H](Cl)Sc2nc(ns2)c3ccccc3Cl)c1"; // made up
RWMol *m1 = SmilesToMol(smiles);
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
RDGeom::Point3D c1 = MolTransforms::computeCentroid(m1->getConformer());
for (unsigned int i = 0; i < m1->getNumAtoms(); ++i) {
RDGeom::Point3D &p = m1->getConformer().getAtomPos(i);
p -= c1;
}
smiles = "NC(=O)[C@H](Cl)Sc1ncns1"; // made up
RWMol *m2 = SmilesToMol(smiles);
TEST_ASSERT(m2);
MolDraw2DUtils::prepareMolForDrawing(*m2);
RDGeom::Point3D c2 = MolTransforms::computeCentroid(m2->getConformer());
for (unsigned int i = 0; i < m2->getNumAtoms(); ++i) {
RDGeom::Point3D &p = m2->getConformer().getAtomPos(i);
p -= c2;
}
smiles = "BrCNC(=O)[C@H](Cl)Sc1ncns1"; // made up
RWMol *m3 = SmilesToMol(smiles);
TEST_ASSERT(m3);
MolDraw2DUtils::prepareMolForDrawing(*m3);
RDGeom::Point3D c3 = MolTransforms::computeCentroid(m3->getConformer());
for (unsigned int i = 0; i < m3->getNumAtoms(); ++i) {
RDGeom::Point3D &p = m3->getConformer().getAtomPos(i);
p -= c3;
}
{
MolDraw2DSVG drawer(500, 400, 250, 200);
drawer.drawMolecule(*m1, "m1");
drawer.setOffset(250, 0);
drawer.drawMolecule(*m2, "m2");
drawer.setOffset(0, 200);
drawer.drawMolecule(*m3, "m3");
drawer.setOffset(250, 200);
drawer.drawMolecule(*m1, "m4");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test11_1.svg");
outs << text;
outs.flush();
}
{ // drawing "out of order"
MolDraw2DSVG drawer(500, 400, 250, 200);
drawer.setOffset(250, 0);
drawer.drawMolecule(*m1, "m1");
drawer.setOffset(0, 0);
drawer.drawMolecule(*m2, "m2");
drawer.setOffset(0, 200);
drawer.drawMolecule(*m1, "m3");
drawer.setOffset(250, 200);
drawer.drawMolecule(*m2, "m4");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test11_2.svg");
outs << text;
outs.flush();
}
delete m1;
delete m2;
std::cerr << " Done" << std::endl;
}
void test12DrawMols() {
std::cout << " ----------------- Testing drawMolecules" << std::endl;
auto setup_mol = [](const std::string &smi, const std::string leg,
std::vector<ROMol *> &mols,
std::vector<std::string> &legends) {
mols.push_back(SmilesToMol(smi));
TEST_ASSERT(mols.back());
legends.push_back(leg);
};
std::vector<ROMol *> mols;
std::unique_ptr<std::vector<std::string>> legends(
new std::vector<std::string>());
// made up SMILES, each with sequence F, Cl, Br so we can see which
// ones are drawn, which ones are missing.
setup_mol("COc1cccc(NC(=O)[C@H](F)Sc2nc(ns2)c3ccccc3F)c1", "m1", mols,
*legends);
setup_mol("NC(=O)[C@H](F)Sc1ncns1", "m2", mols, *legends);
setup_mol("COc1cccc(NC(=O)[C@H](Cl)Sc2nc(ns2)c3ccccc3F)c1", "m3", mols,
*legends);
setup_mol("NC(=O)[C@H](Cl)Sc1ncns1", "m4", mols, *legends);
setup_mol("COc1cccc(NC(=O)[C@H](Br)Sc2nc(ns2)c3ccccc3F)c1", "m5", mols,
*legends);
setup_mol("NC(=O)[C@H](Br)Sc1ncns1", "m6", mols, *legends);
{
MolDraw2DSVG drawer(750, 400, 250, 200);
drawer.drawMolecules(mols, legends.get());
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test12_1.svg");
outs << text;
outs.flush();
}
{ // github #1325: multiple molecules in one pane
MolDraw2DSVG drawer(300, 300, 300, 300);
drawer.drawMolecules(mols);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test12_3.svg");
outs << text;
outs.flush();
}
{ // github #1325: multiple molecules in one pane
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecules(mols);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test12_4.svg");
outs << text;
outs.flush();
}
{
mols[2] = nullptr;
mols[4] = nullptr;
MolDraw2DSVG drawer(750, 400, 250, 200);
drawer.drawMolecules(mols);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test12_2.svg");
outs << text;
outs.flush();
}
for (auto m : mols) {
delete m;
}
std::cerr << " Done" << std::endl;
}
void test13JSONConfig() {
std::cerr << " ----------------- Test JSON Configuration" << std::endl;
{
std::string smiles = "CCO";
RWMol *m = SmilesToMol(smiles);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
MolDraw2DSVG drawer(250, 200);
const char *json =
"{\"legendColour\":[1.0,0.5,1.0], \"rotate\": 90, "
"\"bondLineWidth\": 5}";
MolDraw2DUtils::updateDrawerParamsFromJSON(drawer, json);
drawer.drawMolecule(*m, "foo");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test13_1.svg");
outs << text;
outs.close();
TEST_ASSERT(text.find("sans-serif;fill:#FF7FFF") != std::string::npos);
TEST_ASSERT(text.find("'bond-0' d='M 122.883,9.09091 L 170.762,92.0201'") !=
std::string::npos);
// these days the bond line width scales with the rest of the
// drawing, and at this size this comes out as 6px.
TEST_ASSERT(text.find("stroke-width:6px") != std::string::npos);
delete m;
}
std::cerr << " Done" << std::endl;
}
void testGithub1090() {
std::cout << " ----------------- Testing github 1090: escape html characters "
"in SVG output"
<< std::endl;
std::string smiles = "CCOC"; // made up
RWMol *m1 = SmilesToMol(smiles);
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
{
ROMol lm(*m1);
MolDraw2DSVG drawer(250, 200);
drawer.drawOptions().atomLabels[0] = "C&1";
drawer.drawOptions().atomLabels[1] = "[CH2<1]";
drawer.drawOptions().atomLabels[3] = "[C>1H3]";
drawer.drawMolecule(lm, "legend&legend>1");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("testGithub1090_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("C&1") == std::string::npos);
TEST_ASSERT(text.find("<1") == std::string::npos);
TEST_ASSERT(text.find(">1") == std::string::npos);
TEST_ASSERT(text.find("d&l") == std::string::npos);
}
delete m1;
std::cerr << " Done" << std::endl;
}
void testGithub1035() {
std::cout << " ----------------- Testing github 1035: overflow bug in SVG "
"color generation"
<< std::endl;
std::string smiles = "CCOC"; // made up
RWMol *m1 = SmilesToMol(smiles);
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
std::vector<int> highlights;
highlights.push_back(0);
highlights.push_back(1);
{
MolDraw2DSVG drawer(250, 200);
drawer.drawOptions().highlightColour = DrawColour(1.1, .5, .5);
bool ok = false;
try {
drawer.drawMolecule(*m1, &highlights);
} catch (const ValueErrorException &) {
ok = true;
}
TEST_ASSERT(ok);
}
{
MolDraw2DSVG drawer(250, 200);
drawer.drawOptions().highlightColour = DrawColour(.1, -.5, .5);
bool ok = false;
try {
drawer.drawMolecule(*m1, &highlights);
} catch (const ValueErrorException &) {
ok = true;
}
TEST_ASSERT(ok);
}
{
MolDraw2DSVG drawer(250, 200);
drawer.drawOptions().highlightColour = DrawColour(1., .5, 1.5);
bool ok = false;
try {
drawer.drawMolecule(*m1, &highlights);
} catch (const ValueErrorException &) {
ok = true;
}
TEST_ASSERT(ok);
}
delete m1;
std::cerr << " Done" << std::endl;
}
void testGithub1271() {
std::cout << " ----------------- Testing github 1271: MolDraw2D not drawing "
"anything for molecules aligned with the X or Y axes"
<< std::endl;
{
std::string mb =
"ethane\n\
RDKit 2D\n\
\n\
2 1 0 0 0 0 0 0 0 0999 V2000\n\
-0.7500 0.0000 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
0.7500 -0.0000 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
1 2 1 0\n\
M END";
RWMol *m = MolBlockToMol(mb);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test1271_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("d='M 0,200 0,200") == std::string::npos);
delete m;
}
{
std::string mb =
"ethane\n\
RDKit 2D\n\
\n\
2 1 0 0 0 0 0 0 0 0999 V2000\n\
-0.0000 0.5000 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
0.0000 -0.5000 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0\n\
1 2 1 0\n\
M END";
RWMol *m = MolBlockToMol(mb);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test1271_2.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("d='M 0,200 0,200") == std::string::npos);
delete m;
}
{
std::string mb =
"water\n\
RDKit 2D\n\
\n\
1 0 0 0 0 0 0 0 0 0999 V2000\n\
-0.0000 0.0000 0.0000 O 0 0 0 0 0 0 0 0 0 0 0 0\n\
M END";
RWMol *m = MolBlockToMol(mb);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test1271_3.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("d='M 0,200 0,200") == std::string::npos);
delete m;
}
{
std::string mb =
"water\n\
RDKit 2D\n\
\n\
1 0 0 0 0 0 0 0 0 0999 V2000\n\
-0.0000 0.5000 0.0000 O 0 0 0 0 0 0 0 0 0 0 0 0\n\
M END";
RWMol *m = MolBlockToMol(mb);
TEST_ASSERT(m);
MolDraw2DUtils::prepareMolForDrawing(*m);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test1271_4.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("d='M 0,200 0,200") == std::string::npos);
delete m;
}
{
std::string smiles = "C=C(O)C(O)"; // made up
RWMol *m1 = SmilesToMol(smiles);
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
smiles = "O";
RWMol *m2 = SmilesToMol(smiles);
TEST_ASSERT(m2);
MolDraw2DUtils::prepareMolForDrawing(*m2);
MolDraw2DSVG drawer(500, 200, 250, 200);
drawer.drawMolecule(*m1, "m1");
drawer.setOffset(250, 0);
drawer.drawMolecule(*m2, "m2");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test1271_5.svg");
outs << text;
outs.flush();
delete m1;
delete m2;
}
std::cerr << " Done" << std::endl;
}
void testGithub1322() {
std::cout << " ----------------- Testing github 1322: add custom atom labels"
<< std::endl;
{
std::string smiles = "CCC[Se]"; // made up
RWMol *m1 = SmilesToMol(smiles);
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
{
MolDraw2DSVG drawer(500, 200, 250, 200);
drawer.drawMolecule(*m1, "m1");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
TEST_ASSERT(text.find("Se") != std::string::npos);
}
{
m1->getAtomWithIdx(3)->setProp(common_properties::atomLabel,
"customlabel");
MolDraw2DSVG drawer(500, 200, 250, 200);
drawer.drawMolecule(*m1, "m1");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test1322_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("Se") == std::string::npos);
TEST_ASSERT(text.find("customlabel") != std::string::npos);
}
delete m1;
}
std::cerr << " Done" << std::endl;
}
void testGithub565() {
std::cout << " ----------------- Testing github 565: support a fixed bond "
"length in the MolDraw2D code"
<< std::endl;
{
std::string smiles = "CCCCC";
RWMol *m1 = SmilesToMol(smiles);
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
Point2D minV, maxV;
const Conformer &cnf = m1->getConformer();
minV.x = maxV.x = cnf.getAtomPos(0).x;
minV.y = maxV.y = cnf.getAtomPos(0).y;
for (unsigned int i = 1; i < m1->getNumAtoms(); i++) {
minV.x = std::min(minV.x, cnf.getAtomPos(i).x);
minV.y = std::min(minV.y, cnf.getAtomPos(i).y);
maxV.x = std::max(maxV.x, cnf.getAtomPos(i).x);
maxV.y = std::max(maxV.y, cnf.getAtomPos(i).y);
}
{
unsigned int dpa = 100;
unsigned int w = dpa * (maxV.x - minV.x);
unsigned int h = dpa * (maxV.y - minV.y);
MolDraw2DSVG drawer(w, h);
drawer.setScale(w, h, minV, maxV);
drawer.drawMolecule(*m1, "m1");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test565_1.svg");
outs << text;
outs.flush();
}
{
unsigned int dpa = 50;
unsigned int w = dpa * (maxV.x - minV.x);
unsigned int h = dpa * (maxV.y - minV.y);
MolDraw2DSVG drawer(w, h);
drawer.setScale(w, h, minV, maxV);
drawer.drawMolecule(*m1, "m1");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test565_2.svg");
outs << text;
outs.flush();
}
delete m1;
}
std::cerr << " Done" << std::endl;
}
void test14BWPalette() {
std::cout << " ----------------- Testing use of a black & white palette"
<< std::endl;
{
std::string smiles = "CNC(Cl)C(=O)O";
RWMol *m1 = SmilesToMol(smiles);
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
{ // start with color
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m1, "m1");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
TEST_ASSERT(text.find("stroke:#00CC00") != std::string::npos);
std::ofstream outs("test14_1.svg");
outs << text;
outs.flush();
}
{ // now B&W
MolDraw2DSVG drawer(200, 200);
assignBWPalette(drawer.drawOptions().atomColourPalette);
drawer.drawMolecule(*m1, "m1");
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
TEST_ASSERT(text.find("stroke:#00CC00") == std::string::npos);
std::ofstream outs("test14_2.svg");
outs << text;
outs.flush();
}
delete m1;
}
std::cerr << " Done" << std::endl;
}
void test15ContinuousHighlightingWithGrid() {
std::cerr << " ----------------- Testing use of continuous highlighting with "
"drawMolecules"
<< std::endl;
{
std::string smiles =
"COc1cccc(NC(=O)[C@H](Cl)Sc2nc(ns2)c3ccccc3Cl)c1"; // made up
RWMol *m1 = SmilesToMol(smiles);
TEST_ASSERT(m1);
smiles = "NC(=O)[C@H](Cl)Sc1ncns1"; // made up
RWMol *m2 = SmilesToMol(smiles);
TEST_ASSERT(m2);
std::vector<ROMol *> mols;
mols.push_back(m1);
mols.push_back(m2);
std::vector<std::vector<int>> atHighlights(2);
atHighlights[0].push_back(0);
atHighlights[0].push_back(1);
atHighlights[0].push_back(2);
atHighlights[0].push_back(6);
atHighlights[1].push_back(0);
atHighlights[1].push_back(1);
atHighlights[1].push_back(2);
atHighlights[1].push_back(6);
{
MolDraw2DSVG drawer(500, 200, 250, 200);
drawer.drawOptions().continuousHighlight = false;
drawer.drawMolecules(mols, nullptr, &atHighlights);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test15_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("stroke:#FF7F7F;stroke-width:4px;") ==
std::string::npos);
}
{
MolDraw2DSVG drawer(500, 200, 250, 200);
drawer.drawOptions().continuousHighlight = true;
drawer.drawMolecules(mols, nullptr, &atHighlights);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test15_2.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("stroke:#FF7F7F;stroke-width:4px;") !=
std::string::npos);
}
for (auto &&mol : mols) {
delete mol;
}
}
std::cerr << " Done" << std::endl;
}
void testGithub1829() {
std::cerr << " ----------------- Testing github 1829: crash when "
"drawMolecules() is called with an empty list"
<< std::endl;
{
std::vector<ROMol *> mols;
MolDraw2DSVG drawer(750, 400, 250, 200);
// this should run quietly without complaining
drawer.drawMolecules(mols);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
}
std::cerr << " Done" << std::endl;
}
void test16MoleculeMetadata() {
std::cout << " ----------------- Testing inclusion of molecule metadata"
<< std::endl;
{
std::string smiles = "CN[C@H](Cl)C(=O)O";
std::unique_ptr<RWMol> m1(SmilesToMol(smiles));
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
{ // one molecule
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m1, "m1");
drawer.addMoleculeMetadata(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test16_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("idx=\"2\" atom-smiles=\"[NH]\" drawing-x=\"54.") !=
std::string::npos);
TEST_ASSERT(text.find("idx=\"2\" begin-atom-idx=\"3\" end-atom-idx=\"2\" "
"bond-smiles=\"-\"") != std::string::npos);
}
{ // multiple molecules
MolDraw2DSVG drawer(400, 400, 200, 200);
auto *rom = rdcast<ROMol *>(m1.get());
std::vector<ROMol *> ms = {new ROMol(*rom), new ROMol(*rom),
new ROMol(*rom), new ROMol(*rom)};
drawer.drawMolecules(ms);
drawer.addMoleculeMetadata(ms);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test16_2.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("atom-smiles=\"[NH]\" drawing-x=\"54.") !=
std::string::npos);
TEST_ASSERT(text.find("atom-smiles=\"[NH]\" drawing-x=\"254.") !=
std::string::npos);
for (auto ptr : ms) {
delete ptr;
}
}
}
std::cerr << " Done" << std::endl;
}
void test17MaxFontSize() {
std::cout << " ----------------- Test 16 - Testing maximum font size"
<< std::endl;
{
std::string fName = getenv("RDBASE");
fName += "/Code/GraphMol/MolDraw2D/test_dir";
fName += "/clash.mol";
std::unique_ptr<ROMol> m(MolFileToMol(fName));
std::string nameBase = "test16_";
TEST_ASSERT(m);
{
std::ofstream outs((nameBase + "1.svg").c_str());
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:40px") != std::string::npos);
}
{
std::ofstream outs((nameBase + "2.svg").c_str());
MolDraw2DSVG drawer(300, 300);
drawer.drawOptions().maxFontSize = -1;
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:47px") != std::string::npos);
}
{
std::ofstream outs((nameBase + "3.svg").c_str());
MolDraw2DSVG drawer(300, 300);
drawer.drawOptions().maxFontSize = 20;
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:20px") != std::string::npos);
}
}
std::cerr << " Done" << std::endl;
}
void test18FixedScales() {
std::cout << " ----------------- Testing use of fixed scales for drawing."
<< std::endl;
std::string nameBase = "test18_";
{
std::string smi = "Clc1ccccc1";
std::unique_ptr<ROMol> m(SmilesToMol(smi));
TEST_ASSERT(m);
{
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs((nameBase + "1.svg").c_str());
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:28px") != std::string::npos);
}
{
MolDraw2DSVG drawer(300, 300);
// fix scale so bond is 5% if window width.
drawer.drawOptions().fixedScale = 0.05;
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs((nameBase + "2.svg").c_str());
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:7px") != std::string::npos);
}
}
{
std::string smi =
"C[C@@H](N[C@@H]1CC[C@@H](C(=O)N2CCC(C(=O)N3CCCC3)"
"(c3ccccc3)CC2)C(C)(C)C1)c1ccc(Cl)cc1";
std::unique_ptr<ROMol> m(SmilesToMol(smi));
TEST_ASSERT(m);
{
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs((nameBase + "3.svg").c_str());
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:8px") != std::string::npos);
}
{
// fix bond length to 10 pixels.
MolDraw2DSVG drawer(300, 300);
drawer.drawOptions().fixedBondLength = 10;
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs((nameBase + "4.svg").c_str());
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:5px") != std::string::npos);
}
{
// this one should be the same size as the first, as it won't scale
// up if the picture won't fit.
MolDraw2DSVG drawer(300, 300);
drawer.drawOptions().fixedBondLength = 30;
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs((nameBase + "5.svg").c_str());
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:8px") != std::string::npos);
}
}
std::cerr << " Done" << std::endl;
}
void test19RotateDrawing() {
std::cout << " ----------------- Testing rotation of 2D drawing."
<< std::endl;
std::string nameBase = "test19_";
{
std::string smi = "Clc1ccccc1";
std::unique_ptr<ROMol> m(SmilesToMol(smi));
TEST_ASSERT(m);
{
MolDraw2DSVG drawer(300, 300);
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs((nameBase + "1.svg").c_str());
outs << text;
outs.flush();
TEST_ASSERT(text.find("text-anchor=\"start\" x='256.907' y='154.276'") !=
std::string::npos);
}
{
MolDraw2DSVG drawer(300, 300);
drawer.drawOptions().rotate = 90.0;
drawer.drawMolecule(*m);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs((nameBase + "2.svg").c_str());
outs << text;
outs.flush();
TEST_ASSERT(text.find("text-anchor=\"start\" x='136.604' y='276.316'") !=
std::string::npos);
}
}
std::cerr << " Done" << std::endl;
}
void testGithub2063() {
std::cout << " ----------------- Testing Github2063: Drawing racemic bond "
"stereo as crossed bonds should be the default"
<< std::endl;
{
std::string molb = R"molb(squiggle bond
Mrv1810 09301816112D
4 3 0 0 0 0 999 V2000
0.5804 -0.3125 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0
1.2948 0.1000 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0
-0.1341 0.1000 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0
2.0093 -0.3125 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0
1 2 2 0 0 0 0
1 3 1 0 0 0 0
2 4 1 4 0 0 0
M END)molb";
std::unique_ptr<RWMol> m1(MolBlockToMol(molb));
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m1, "m1");
drawer.addMoleculeMetadata(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("testGithub2063_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(
text.find(
"<path class='bond-0' d='M 65.8823,110.884 L 134.118,89.1159'") !=
std::string::npos);
TEST_ASSERT(
text.find(
"<path class='bond-1' d='M 69.6998,117.496 L 9.09091,82.5044'") !=
std::string::npos);
}
{
std::string molb = R"molb(crossed bond
Mrv1810 09301816112D
4 3 0 0 0 0 999 V2000
0.5804 -0.3125 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0
1.2948 0.1000 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0
-0.1341 0.1000 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0
2.0093 -0.3125 0.0000 C 0 0 0 0 0 0 0 0 0 0 0 0
1 2 2 3 0 0 0
1 3 1 0 0 0 0
2 4 1 0 0 0 0
M END)molb";
std::unique_ptr<RWMol> m1(MolBlockToMol(molb));
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m1, "m1");
drawer.addMoleculeMetadata(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("testGithub2063_2.svg");
outs << text;
outs.flush();
TEST_ASSERT(
text.find(
"<path class='bond-0' d='M 65.8823,110.884 L 134.118,89.1159'") !=
std::string::npos);
TEST_ASSERT(
text.find(
"<path class='bond-1' d='M 69.6998,117.496 L 9.09091,82.5044'") !=
std::string::npos);
}
std::cerr << " Done" << std::endl;
}
void testGithub2151() {
std::cout << " ----------------- Testing Github2151: MolDraw2D: line width "
"should be controlled by MolDrawOptions"
<< std::endl;
{
auto m1 = "C[C@H](F)c1ccc(C#N)cc1"_smiles;
TEST_ASSERT(m1);
MolDraw2DUtils::prepareMolForDrawing(*m1);
{
MolDraw2DSVG drawer(200, 200);
drawer.drawMolecule(*m1);
drawer.addMoleculeMetadata(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("testGithub2151_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("stroke-width:2px") != std::string::npos);
TEST_ASSERT(text.find("stroke-width:3px") == std::string::npos);
}
{
MolDraw2DSVG drawer(200, 200);
drawer.drawOptions().bondLineWidth = 8;
drawer.drawMolecule(*m1);
drawer.addMoleculeMetadata(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("testGithub2151_2.svg");
outs << text;
outs.flush();
// the bonds are scaled in thickness, so it won't be 8 pixels.
// Experiment finds 3 on my machine.
TEST_ASSERT(text.find("stroke-width:2px") == std::string::npos);
TEST_ASSERT(text.find("stroke-width:3px") != std::string::npos);
}
}
std::cerr << " Done" << std::endl;
}
void testGithub2762() {
std::cout << " ----------------- Testing testGithub2762: MolDraw2D: HCl "
"and ethane should be drawn"
<< std::endl;
{
auto m1 = "Cl"_smiles;
TEST_ASSERT(m1);
auto m2 = "CC"_smiles;
TEST_ASSERT(m2);
MolDraw2DUtils::prepareMolForDrawing(*m1);
MolDraw2DUtils::prepareMolForDrawing(*m2);
std::vector<ROMol *> mols;
mols.push_back(m1.get());
mols.push_back(m2.get());
MolDraw2DSVG drawer(500, 250, 250, 250);
drawer.drawMolecules(mols);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("testGithub2762.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("font-size:0px") == std::string::npos);
TEST_ASSERT(text.find("'bond-0' d='M 0,200 L 0,200'") == std::string::npos);
}
std::cerr << " Done" << std::endl;
}
void testGithub2931() {
std::cout << " ----------------- Testing testGithub2931: multi-coloured"
" molecule highlights."
<< std::endl;
auto get_all_hit_atoms = [](ROMol &mol,
const std::string &smt) -> std::vector<int> {
std::vector<int> hit_atoms;
RWMol *query = SmartsToMol(smt);
std::vector<MatchVectType> hits_vect;
SubstructMatch(mol, *query, hits_vect);
for (size_t i = 0; i < hits_vect.size(); ++i) {
for (size_t j = 0; j < hits_vect[i].size(); ++j) {
hit_atoms.emplace_back(hits_vect[i][j].second);
}
}
delete query;
return hit_atoms;
};
auto get_all_hit_bonds =
[](ROMol &mol, const std::vector<int> &hit_atoms) -> std::vector<int> {
std::vector<int> hit_bonds;
for (int i : hit_atoms) {
for (int j : hit_atoms) {
if (i > j) {
Bond *bnd = mol.getBondBetweenAtoms(i, j);
if (bnd) {
hit_bonds.emplace_back(bnd->getIdx());
}
}
}
}
return hit_bonds;
};
auto update_colour_map = [](const std::vector<int> &ats, DrawColour col,
std::map<int, std::vector<DrawColour>> &ha_map) {
for (auto h : ats) {
auto ex = ha_map.find(h);
if (ex == ha_map.end()) {
std::vector<DrawColour> cvec(1, col);
ha_map.insert(make_pair(h, cvec));
} else {
if (ex->second.end() ==
find(ex->second.begin(), ex->second.end(), col)) {
ex->second.emplace_back(col);
}
}
}
};
{
std::string smiles = "CO[C@@H](O)C1=C(O[C@H](F)Cl)C(C#N)=C1ONNC[NH3+]";
std::unique_ptr<ROMol> m(SmilesToMol(smiles));
RDDepict::compute2DCoords(*m);
WedgeMolBonds(*m, &(m->getConformer()));
std::vector<std::string> smarts = {"CONN", "N#CC~CO", "C=CON", "CONNCN"};
std::vector<DrawColour> colours = {
DrawColour(1.0, 0.0, 0.0), DrawColour(0.0, 1.0, 0.0),
DrawColour(0.0, 0.0, 1.0), DrawColour(1.0, 0.55, 0.0)};
std::map<int, std::vector<DrawColour>> ha_map;
std::map<int, std::vector<DrawColour>> hb_map;
for (size_t i = 0; i < smarts.size(); ++i) {
std::vector<int> hit_atoms = get_all_hit_atoms(*m, smarts[i]);
std::vector<int> hit_bonds = get_all_hit_bonds(*m, hit_atoms);
update_colour_map(hit_atoms, colours[i], ha_map);
update_colour_map(hit_bonds, colours[i], hb_map);
}
std::map<int, double> h_rads;
std::map<int, int> h_lw_mult;
{
MolDraw2DSVG drawer(500, 500);
drawer.drawOptions().fillHighlights = false;
drawer.drawOptions().continuousHighlight = true;
drawer.drawMoleculeWithHighlights(*m, "Test 1", ha_map, hb_map, h_rads,
h_lw_mult);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("testGithub2931_1.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("stroke:#FF8C00;stroke-width:5px") !=
std::string::npos);
// this is the 2nd ellipse in the file (line 34)
TEST_ASSERT(text.find("<ellipse cx='241.967' cy='386.719'"
" rx='11.9606' ry='12.8062'"
" style='fill:none;stroke:#00FF00") !=
std::string::npos);
}
{
MolDraw2DSVG drawer(500, 500);
drawer.drawOptions().fillHighlights = false;
drawer.drawOptions().continuousHighlight = true;
drawer.drawOptions().atomHighlightsAreCircles = true;
drawer.drawMoleculeWithHighlights(*m, "Test 2", ha_map, hb_map, h_rads,
h_lw_mult);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("testGithub2931_2.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("stroke:#FF8C00;stroke-width:5px") !=
std::string::npos);
// this is the 2nd ellipse in the file (line 34)
TEST_ASSERT(text.find("<ellipse cx='241.768' cy='385.806'"
" rx='10.976' ry='10.976'"
" style='fill:none;stroke:#00FF00") !=
std::string::npos);
}
}
std::cerr << " Done" << std::endl;
}
void test20Annotate() {
std::cout << " ----------------- Testing annotation of 2D Drawing."
<< std::endl;
// add serial numbers to the atoms in the molecule
auto addAtomSerialNumbers = [](ROMol &mol) {
for (auto atom : mol.atoms()) {
atom->setProp(common_properties::atomNote, atom->getIdx());
}
};
auto addBondSerialNumbers = [](ROMol &mol) {
for (auto bond : mol.bonds()) {
bond->setProp(common_properties::bondNote, bond->getIdx());
}
};
{
auto m1 = "S=C1N=C(NC(CC#N)(C)C=C=C)NC2=NNN=C21"_smiles;
addAtomSerialNumbers(*m1);
addBondSerialNumbers(*m1);
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(500, 500);
drawer.drawMolecule(*m1);
drawer.finishDrawing();
drawer.writeDrawingText("test20_1.png");
}
#endif
MolDraw2DSVG drawer(500, 500);
drawer.drawMolecule(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test20_1.svg");
outs << text;
outs.flush();
// annotation for atom 11
TEST_ASSERT(text.find("x='423.22' y='249.655' style='font-size:14px;"
"font-style:normal;font-weight:normal;"
"fill-opacity:1;stroke:none;"
"font-family:sans-serif;fill:#000000' ><tspan>11") !=
std::string::npos);
}
{
auto m1 = "C[C@@H](F)/C=C/[C@H](O)C"_smiles;
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions().addStereoAnnotation = true;
drawer.drawMolecule(*m1);
drawer.finishDrawing();
drawer.writeDrawingText("test20_2.png");
}
#endif
MolDraw2DSVG drawer(500, 500);
drawer.drawOptions().addStereoAnnotation = true;
drawer.drawMolecule(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test20_2.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("x='278.629' y='221.042' style='font-size:27px;"
"font-style:normal;font-weight:normal;"
"fill-opacity:1;stroke:none;font-family:sans-serif;"
"fill:#000000") != std::string::npos);
}
{
auto m1 = "S=C1N=C(NC(CC#N)(C)C=C=C)NC2=NNN=C21"_smiles;
auto atom = m1->getAtomWithIdx(3);
atom->setProp("atomNote", "foolish annotation");
auto bond = m1->getBondWithIdx(5);
bond->setProp("bondNote", "way too long to be useful");
#ifdef RDK_BUILD_CAIRO_SUPPORT
{
MolDraw2DCairo drawer(300, 300);
drawer.drawOptions().addStereoAnnotation = true;
drawer.drawMolecule(*m1);
drawer.finishDrawing();
drawer.writeDrawingText("test20_3.png");
}
#endif
MolDraw2DSVG drawer(500, 500);
drawer.drawOptions().addStereoAnnotation = true;
drawer.drawMolecule(*m1);
drawer.finishDrawing();
std::string text = drawer.getDrawingText();
std::ofstream outs("test20_3.svg");
outs << text;
outs.flush();
TEST_ASSERT(text.find("x='209.32' y='180.482' style='font-size:15px;"
"font-style:normal;font-weight:normal;"
"fill-opacity:1;stroke:none;"
"font-family:sans-serif;fill:#000000'"
" ><tspan>foolish annotation</tspan>") !=
std::string::npos);
}
std::cerr << " Done" << std::endl;
}
int main() {
#ifdef RDK_BUILD_COORDGEN_SUPPORT
RDDepict::preferCoordGen = false;
#endif
RDLog::InitLogs();
#if 1
test1();
test2();
test4();
test5();
test6();
test7();
test8PrepareMolForDrawing();
testMultiThreaded();
testGithub781();
test3();
testGithub774();
test9MolLegends();
testGithub852();
testGithub860();
testGithub910();
testGithub932();
testGithub953();
testGithub983();
testDeuteriumTritium();
testCrossedBonds();
test10DrawSecondMol();
test11DrawMolGrid();
test12DrawMols();
test13JSONConfig();
testGithub1090();
testGithub1035();
testGithub1271();
testGithub1322();
testGithub565();
test14BWPalette();
test15ContinuousHighlightingWithGrid();
test17MaxFontSize();
testGithub1829();
test18FixedScales();
test19RotateDrawing();
#endif
test16MoleculeMetadata();
testGithub2063();
testGithub2151();
testGithub2762();
testGithub2931();
test20Annotate();
}
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