Bug Summary

File:cdc/geometry/src/GeoCDCCreator.cc
Warning:line 1228, column 13
Potential leak of memory pointed to by 'logicalV'

Annotated Source Code

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clang -cc1 -cc1 -triple x86_64-unknown-linux-gnu -O3 -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name GeoCDCCreator.cc -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=cplusplus -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -fhalf-no-semantic-interposition -mframe-pointer=none -fmath-errno -ffp-contract=on -fno-rounding-math -mconstructor-aliases -funwind-tables=2 -target-cpu x86-64 -tune-cpu generic -debugger-tuning=gdb -fdebug-compilation-dir=/data/b2soft/buildbot/development/build -fcoverage-compilation-dir=/data/b2soft/buildbot/development/build -resource-dir /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/lib/clang/21 -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/include/c++ -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/include/c++/x86_64-redhat-linux -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/include/c++/backward -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/include -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/include/python3.12 -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/include/CLHEP -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/include/Geant4 -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/include -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/include/root -isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/include/belle_legacy -I include/ -D _PACKAGE_="cdc" -D G4UI_USE_TCSH -D RaveDllExport= -D HAS_SQLITE -D HAS_CALLGRIND -I include -I /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/include/libxml2 -internal-isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/bin/../lib64/gcc/x86_64-redhat-linux/15.2.0/../../../../include/c++ -internal-isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/bin/../lib64/gcc/x86_64-redhat-linux/15.2.0/../../../../include/c++/x86_64-redhat-linux -internal-isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/bin/../lib64/gcc/x86_64-redhat-linux/15.2.0/../../../../include/c++/backward -internal-isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/lib/clang/21/include -internal-isystem /usr/local/include -internal-isystem /cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/bin/../lib64/gcc/x86_64-redhat-linux/15.2.0/../../../../x86_64-redhat-linux/include -internal-externc-isystem /include -internal-externc-isystem /usr/include -Wno-missing-braces -Wno-unused-command-line-argument -std=c++20 -fdeprecated-macro -ferror-limit 19 -fgnuc-version=4.2.1 -fno-implicit-modules -fskip-odr-check-in-gmf -fcxx-exceptions -fexceptions -vectorize-loops -vectorize-slp -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /scan_build/2026-05-31-004316-385593-1 -x c++ cdc/geometry/src/GeoCDCCreator.cc

cdc/geometry/src/GeoCDCCreator.cc

1/**************************************************************************
2 * basf2 (Belle II Analysis Software Framework) *
3 * Author: The Belle II Collaboration *
4 * *
5 * See git log for contributors and copyright holders. *
6 * This file is licensed under LGPL-3.0, see LICENSE.md. *
7 **************************************************************************/
8
9#include <cdc/geometry/GeoCDCCreator.h>
10#include <cdc/geometry/CDCGeometryPar.h>
11#include <cdc/geometry/CDCGeoControlPar.h>
12#include <cdc/simulation/CDCSimControlPar.h>
13#include <cdc/simulation/CDCSensitiveDetector.h>
14#include <simulation/background/BkgSensitiveDetector.h>
15
16#include <geometry/CreatorFactory.h>
17#include <geometry/Materials.h>
18
19#include <cmath>
20#include <boost/format.hpp>
21
22#include <G4Material.hh>
23#include <G4Box.hh>
24#include <G4Tubs.hh>
25#include <G4Torus.hh>
26#include <G4Trd.hh>
27#include <G4SubtractionSolid.hh>
28#include <G4Region.hh>
29#include <G4VSolid.hh>
30
31#include <G4Polycone.hh>
32#include <G4Cons.hh>
33#include <G4Colour.hh>
34#include <G4LogicalVolume.hh>
35#include <G4PVPlacement.hh>
36#include <G4Transform3D.hh>
37#include <G4VisAttributes.hh>
38#include <G4RotationMatrix.hh>
39#include <G4UserLimits.hh>
40#include <iostream>
41
42using namespace std;
43
44namespace Belle2 {
45
46 using namespace geometry;
47
48 namespace CDC {
49
50 /**
51 * Register the GeoCreator.
52 */
53
54 geometry::CreatorFactory<GeoCDCCreator> GeoCDCFactory("CDCCreator");
55
56 //-----------------------------------------------------------------
57 // Implementation
58 //-----------------------------------------------------------------
59
60 GeoCDCCreator::GeoCDCCreator()
61 {
62 // Set job control params. before sensitivedetector and geometry construction
63 CDCSimControlPar::getInstance();
64 CDCGeoControlPar::getInstance();
65
66 m_logicalCDC = 0;
67 m_physicalCDC = 0;
68 m_VisAttributes.clear();
69 m_VisAttributes.push_back(new G4VisAttributes(false)); // for "invisible"
70 m_userLimits.clear();
71 }
72
73
74 GeoCDCCreator::~GeoCDCCreator()
75 {
76 delete m_sensitive;
77 if (m_bkgsensitive) delete m_bkgsensitive;
78 for (BkgSensitiveDetector* sensitiveDetector : m_BkgSensitiveRib4)
79 delete sensitiveDetector;
80 for (G4VisAttributes* visAttr : m_VisAttributes) delete visAttr;
81 m_VisAttributes.clear();
82 for (G4UserLimits* userLimits : m_userLimits) delete userLimits;
83 m_userLimits.clear();
84 }
85
86 void GeoCDCCreator::createGeometry(const CDCGeometry& geo, G4LogicalVolume& topVolume, geometry::GeometryTypes)
87 {
88
89 m_sensitive = new CDCSensitiveDetector("CDCSensitiveDetector", (2 * 24)* CLHEP::eV, 10 * CLHEP::MeV);
90
91 const G4double realTemperture = (273.15 + 23.) * CLHEP::kelvin;
92 G4Material* medHelium = geometry::Materials::get("CDCHeGas");
93 G4Material* medEthane = geometry::Materials::get("CDCEthaneGas");
94 G4Material* medAluminum = geometry::Materials::get("Al");
95 G4Material* medTungsten = geometry::Materials::get("W");
96 G4Material* medCFRP = geometry::Materials::get("CFRP");
97 G4Material* medNEMA_G10_Plate = geometry::Materials::get("NEMA_G10_Plate");
98 G4Material* medGlue = geometry::Materials::get("CDCGlue");
99 G4Material* medAir = geometry::Materials::get("Air");
100
101 G4double h2odensity = 1.000 * CLHEP::g / CLHEP::cm3;
102 G4double a = 1.01 * CLHEP::g / CLHEP::mole;
103 G4Element* elH = new G4Element("Hydrogen", "H", 1., a);
104 a = 16.00 * CLHEP::g / CLHEP::mole;
105 G4Element* elO = new G4Element("Oxygen", "O", 8., a);
106 G4Material* medH2O = new G4Material("Water", h2odensity, 2);
107 medH2O->AddElement(elH, 2);
108 medH2O->AddElement(elO, 1);
109 G4Material* medCopper = geometry::Materials::get("Cu");
110 G4Material* medHV = geometry::Materials::get("CDCHVCable");
111 //G4Material* medFiber = geometry::Materials::get("CDCOpticalFiber");
112 //G4Material* medCAT7 = geometry::Materials::get("CDCCAT7");
113 //G4Material* medTRG = geometry::Materials::get("CDCOpticalFiberTRG");
114
115 // Total cross section
116 const double rmax_innerWall = geo.getFiducialRmin();
117 const double rmin_outerWall = geo.getFiducialRmax();
118 const double diameter_senseWire = geo.getSenseDiameter();
119 const double diameter_fieldWire = geo.getFieldDiameter();
120 const double num_senseWire = static_cast<double>(geo.getNSenseWires());
121 const double num_fieldWire = static_cast<double>(geo.getNFieldWires());
122 double totalCS = M_PI3.14159265358979323846 * (rmin_outerWall * rmin_outerWall - rmax_innerWall * rmax_innerWall);
123
124 // Sense wire cross section
125 double senseCS = M_PI3.14159265358979323846 * (diameter_senseWire / 2) * (diameter_senseWire / 2) * num_senseWire;
126
127 // Field wire cross section
128 double fieldCS = M_PI3.14159265358979323846 * (diameter_fieldWire / 2) * (diameter_fieldWire / 2) * num_fieldWire;
129
130 // Density
131 const double denHelium = medHelium->GetDensity() / 2.0;
132 const double denEthane = medEthane->GetDensity() / 2.0;
133 const double denAluminum = medAluminum->GetDensity() * (fieldCS / totalCS);
134 const double denTungsten = medTungsten->GetDensity() * (senseCS / totalCS);
135 const double density = denHelium + denEthane + denAluminum + denTungsten;
136 G4Material* cdcMed = new G4Material("CDCGasWire", density, 4, kStateGas, realTemperture);
137 cdcMed->AddMaterial(medHelium, denHelium / density);
138 cdcMed->AddMaterial(medEthane, denEthane / density);
139 cdcMed->AddMaterial(medTungsten, denTungsten / density);
140 cdcMed->AddMaterial(medAluminum, denAluminum / density);
141
142 G4Material* cdcMedGas = cdcMed;
143
144 CDCGeometryPar& cdcgp = CDCGeometryPar::Instance(&geo);
145 const CDCGeoControlPar& gcp = CDCGeoControlPar::getInstance();
146 // std::cout << gcp.getMaterialDefinitionMode() << std::endl;
147
148 // if (cdcgp.getMaterialDefinitionMode() == 2) {
149 if (gcp.getMaterialDefinitionMode() == 2) {
150 const double density2 = denHelium + denEthane;
151 cdcMedGas = new G4Material("CDCRealGas", density2, 2, kStateGas, realTemperture);
152 cdcMedGas->AddMaterial(medHelium, denHelium / density2);
153 cdcMedGas->AddMaterial(medEthane, denEthane / density2);
154 }
155
156 if (gcp.getPrintMaterialTable()) {
157 G4cout << *(G4Material::GetMaterialTable());
158 }
159
160 const auto& mother = geo.getMotherVolume();
161 const auto& motherRmin = mother.getRmin();
162 const auto& motherRmax = mother.getRmax();
163 const auto& motherZ = mother.getZ();
164 G4Polycone* solid_cdc =
165 new G4Polycone("solidCDC", 0 * CLHEP::deg, 360.* CLHEP::deg,
166 mother.getNNodes(), motherZ.data(),
167 motherRmin.data(), motherRmax.data());
168 m_logicalCDC = new G4LogicalVolume(solid_cdc, medAir, "logicalCDC", 0, 0, 0);
169 m_physicalCDC = new G4PVPlacement(0, G4ThreeVector(geo.getGlobalOffsetX() * CLHEP::cm,
170 geo.getGlobalOffsetY() * CLHEP::cm,
171 geo.getGlobalOffsetZ() * CLHEP::cm), m_logicalCDC,
172 "physicalCDC", &topVolume, false, 0);
173
174 // Set up region for production cuts
175 G4Region* aRegion = new G4Region("CDCEnvelope");
176 m_logicalCDC->SetRegion(aRegion);
177 aRegion->AddRootLogicalVolume(m_logicalCDC);
178
179 m_VisAttributes.push_back(new G4VisAttributes(true, G4Colour(0., 1., 0.)));
180 for (const auto& wall : geo.getOuterWalls()) {
181 const int iOuterWall = wall.getId();
182 const string wallName = wall.getName();
183 const double wallRmin = wall.getRmin();
184 const double wallRmax = wall.getRmax();
185 const double wallZfwd = wall.getZfwd();
186 const double wallZbwd = wall.getZbwd();
187 const double length = (wallZfwd - wallZbwd) / 2.0;
188
189
190 G4Material* medWall;
191 if (strstr((wallName).c_str(), "MiddleWall") != nullptr) {
192 medWall = medCFRP;
193 } else {
194 medWall = medAluminum;
195 }
196 G4Tubs* outerWallTubeShape = new G4Tubs("solid" + wallName, wallRmin * CLHEP::cm,
197 wallRmax * CLHEP::cm, length * CLHEP::cm, 0 * CLHEP::deg, 360.*CLHEP::deg);
198
199 G4LogicalVolume* outerWallTube = new G4LogicalVolume(outerWallTubeShape, medWall, "solid" + wallName, 0, 0, 0);
200 outerWallTube->SetVisAttributes(m_VisAttributes.back());
201 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (length + wallZbwd)*CLHEP::cm), outerWallTube, "logical" + wallName,
202 m_logicalCDC, false, iOuterWall);
203 }
204
205
206 m_VisAttributes.push_back(new G4VisAttributes(true, G4Colour(0., 1., 0.)));
207 for (const auto& wall : geo.getInnerWalls()) {
208 const string wallName = wall.getName();
209 const double wallRmin = wall.getRmin();
210 const double wallRmax = wall.getRmax();
211 const double wallZfwd = wall.getZfwd();
212 const double wallZbwd = wall.getZbwd();
213 const double length = (wallZfwd - wallZbwd) / 2.0;
214 const int iInnerWall = wall.getId();
215
216 G4Material* medWall;
217 if (strstr(wallName.c_str(), "MiddleWall") != nullptr) {
218 medWall = medCFRP;
219 } else if (strstr(wallName.c_str(), "MiddleGlue") != nullptr) { // Glue layer 0.005 mmt
220 medWall = medGlue;
221 } else { // Al layer 0.1 mmt
222 medWall = medAluminum;
223 }
224
225 G4Tubs* innerWallTubeShape = new G4Tubs("solid" + wallName, wallRmin * CLHEP::cm,
226 wallRmax * CLHEP::cm, length * CLHEP::cm, 0 * CLHEP::deg, 360.*CLHEP::deg);
227 G4LogicalVolume* innerWallTube = new G4LogicalVolume(innerWallTubeShape, medWall, "logical" + wallName, 0, 0, 0);
228 innerWallTube->SetVisAttributes(m_VisAttributes.back());
229 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (length + wallZbwd)*CLHEP::cm), innerWallTube, "physical" + wallName,
230 m_logicalCDC, false, iInnerWall);
231
232
233 }
234
235
236
237 //
238 // Construct sensitive layers.
239 //
240 const uint nSLayer = geo.getNSenseLayers();
241 const double length_feedthrough = geo.getFeedthroughLength();
242 for (uint iSLayer = 0; iSLayer < nSLayer; ++iSLayer) {
243 // Get parameters for sensitive layer: left, middle and right.
244 double rmin_sensitive_left, rmax_sensitive_left;
245 double rmin_sensitive_middle, rmax_sensitive_middle;
246 double rmin_sensitive_right, rmax_sensitive_right;
247 double zback_sensitive_left, zfor_sensitive_left;
248 double zback_sensitive_middle, zfor_sensitive_middle;
249 double zback_sensitive_right, zfor_sensitive_right;
250
251 if (not getEndplateInformation(geo, iSLayer,
252 rmin_sensitive_left, rmax_sensitive_left, zback_sensitive_left, zfor_sensitive_left,
253 rmin_sensitive_middle, rmax_sensitive_middle, zback_sensitive_middle, zfor_sensitive_middle,
254 rmin_sensitive_right, rmax_sensitive_right, zback_sensitive_right, zfor_sensitive_right)) {
255 continue;
256 }
257
258 // Check if build left sensitive tube
259 if ((zfor_sensitive_left - zback_sensitive_left) > length_feedthrough) {
260 // std::cout <<"left doif " << iSLayer <<" "<< zfor_sensitive_left - zback_sensitive_left << std::endl;
261 //==========================================================
262 // zback_sensitive_left
263 // |
264 // \|/
265 // _____________________
266 // | |// 1 // | |
267 // | |==ft====|2 | (ft = feedthrouth)
268 // |_______|____1___|__|
269 // |_______|___________|
270 // |
271 // \|/
272 // zfor_sensitive_left
273 //==========================================================
274
275 // Build a tube with metarial cdcMed for area 1
276 G4Tubs* leftTubeShape = new G4Tubs((boost::format("solidCDCLayer_%1%_leftTube") % iSLayer).str().c_str(),
277 rmin_sensitive_left * CLHEP::cm,
278 rmax_sensitive_left * CLHEP::cm, length_feedthrough * CLHEP::cm / 2.0, 0 * CLHEP::deg, 360.*CLHEP::deg);
279 G4LogicalVolume* leftTube = new G4LogicalVolume(leftTubeShape, cdcMed,
280 (boost::format("logicalCDCLayer_%1%_leftTube") % iSLayer).str().c_str(), 0, 0, 0);
281 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zback_sensitive_left + length_feedthrough / 2.0)*CLHEP::cm), leftTube,
282 (boost::format("physicalCDCLayer_%1%_leftTube") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
283 // Build left sensitive tube (area 2)
284 G4Tubs* leftSensitiveTubeShape = new G4Tubs((boost::format("solidSD_CDCLayer_%1%_left") % iSLayer).str().c_str(),
285 rmin_sensitive_left * CLHEP::cm, rmax_sensitive_left * CLHEP::cm,
286 (zfor_sensitive_left - zback_sensitive_left - length_feedthrough)*CLHEP::cm / 2.0, 0 * CLHEP::deg, 360.*CLHEP::deg);
287 G4LogicalVolume* leftSensitiveTube = new G4LogicalVolume(leftSensitiveTubeShape, cdcMed,
288 (boost::format("logicalSD_CDCLayer_%1%_left") % iSLayer).str().c_str(), 0, 0, 0);
289 leftSensitiveTube->SetSensitiveDetector(m_sensitive);
290 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zfor_sensitive_left + zback_sensitive_left + length_feedthrough)*CLHEP::cm / 2.0),
291 leftSensitiveTube, (boost::format("physicalSD_CDCLayer_%1%_left") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
292 } else {
293 // std::cout <<"left doelse " << iSLayer << std::endl;
294 //==========================================================
295 // zback_sensitive_left
296 // |
297 // \|/
298 // _________________________
299 // | |//// 1 ////| 2 |
300 // | |======ft======== (ft = feedthrouth)
301 // |_______|____1______| 2 |
302 // |_______|___________|___|
303 // |
304 // \|/
305 // zfor_sensitive_left
306 //==========================================================
307
308 // Build a tube with metarial cdcMed for area 1
309 G4Tubs* leftTubeShape = new G4Tubs((boost::format("solidCDCLayer_%1%_leftTube") % iSLayer).str().c_str(),
310 rmin_sensitive_left * CLHEP::cm,
311 rmax_sensitive_left * CLHEP::cm, (zfor_sensitive_left - zback_sensitive_left)*CLHEP::cm / 2.0, 0 * CLHEP::deg, 360.*CLHEP::deg);
312 G4LogicalVolume* leftTube = new G4LogicalVolume(leftTubeShape, cdcMed,
313 (boost::format("logicalCDCLayer_%1%_leftTube") % iSLayer).str().c_str(), 0, 0, 0);
314 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zfor_sensitive_left + zback_sensitive_left)*CLHEP::cm / 2.0), leftTube,
315 (boost::format("physicalCDCLayer_%1%_leftTube") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
316
317
318 // Build a tube with metarial cdcMed for area 2
319 G4Tubs* leftMidTubeShape = new G4Tubs((boost::format("solidCDCLayer_%1%_leftMidTube") % iSLayer).str().c_str(),
320 rmin_sensitive_middle * CLHEP::cm, rmax_sensitive_middle * CLHEP::cm,
321 (length_feedthrough - zfor_sensitive_left + zback_sensitive_left)*CLHEP::cm / 2.0, 0 * CLHEP::deg, 360.*CLHEP::deg);
322 G4LogicalVolume* leftMidTube = new G4LogicalVolume(leftMidTubeShape, cdcMed,
323 (boost::format("logicalCDCLayer_%1%_leftMidTube") % iSLayer).str().c_str(), 0, 0, 0);
324
325 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (length_feedthrough + zfor_sensitive_left + zback_sensitive_left)*CLHEP::cm / 2.0),
326 leftMidTube, (boost::format("physicalCDCLayer_%1%_leftMidTube") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
327
328 // Reset zback_sensitive_middle
329 zback_sensitive_middle = length_feedthrough + zback_sensitive_left;
330 }
331
332 // Check if build right sensitive tube
333 if ((zfor_sensitive_right - zback_sensitive_right) > length_feedthrough) {
334 // std::cout <<"right doif" << iSLayer <<" "<< zfor_sensitive_right - zback_sensitive_right << std::endl;
335 //==========================================================
336 // zfor_sensitive_right
337 // |
338 // \|/
339 // _____________________________
340 // | | 1 |///////|
341 // | 2 |====ft=====|///////| (ft = feedthrouth)
342 // |_______|____1______|_______|
343 // |_______|___________|_______|
344 // |
345 // \|/
346 // zback_sensitive_right
347 //==========================================================
348
349 // Build a tube with metarial cdcMed for area 1
350 G4Tubs* rightTubeShape = new G4Tubs((boost::format("solidCDCLayer_%1%_rightTube") % iSLayer).str().c_str(),
351 rmin_sensitive_right * CLHEP::cm, rmax_sensitive_right * CLHEP::cm, length_feedthrough * CLHEP::cm / 2.0, 0 * CLHEP::deg,
352 360.*CLHEP::deg);
353 G4LogicalVolume* rightTube = new G4LogicalVolume(rightTubeShape, cdcMed,
354 (boost::format("logicalCDCLayer_%1%_rightTube") % iSLayer).str().c_str(), 0, 0, 0);
355
356 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zfor_sensitive_right - length_feedthrough / 2.0)*CLHEP::cm), rightTube,
357 (boost::format("physicalCDCLayer_%1%_rightTube") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
358
359
360 // Build right sensitive tube (area 2)
361 G4Tubs* rightSensitiveTubeShape = new G4Tubs((boost::format("solidSD_CDCLayer_%1%_right") % iSLayer).str().c_str(),
362 rmin_sensitive_right * CLHEP::cm, rmax_sensitive_right * CLHEP::cm,
363 (zfor_sensitive_right - zback_sensitive_right - length_feedthrough)*CLHEP::cm / 2.0, 0 * CLHEP::deg, 360.*CLHEP::deg);
364 G4LogicalVolume* rightSensitiveTube = new G4LogicalVolume(rightSensitiveTubeShape, cdcMed,
365 (boost::format("logicalSD_CDCLayer_%1%_right") % iSLayer).str().c_str(), 0, 0, 0);
366 rightSensitiveTube->SetSensitiveDetector(m_sensitive);
367
368 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zfor_sensitive_right + zback_sensitive_right - length_feedthrough)*CLHEP::cm / 2.0),
369 rightSensitiveTube, (boost::format("physicalSD_CDCLayer_%1%_right") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
370
371 } else {
372 // std::cout <<"right doelse" << iSLayer << std::endl;
373 //==========================================================
374 // zfor_sensitive_right
375 // |
376 // \|/
377 // _____________________________
378 // | | 1 |///////|
379 // |============ft=====|///////| (ft = feedthrouth)
380 // | |____1______|_______|
381 // |_______|___________|_______|
382 // |
383 // \|/
384 // zback_sensitive_right
385 //==========================================================
386
387 // Build a tube with metarial cdcMed for area 1
388 G4Tubs* rightTubeShape = new G4Tubs((boost::format("solidCDCLayer_%1%_rightTube") % iSLayer).str().c_str(),
389 rmin_sensitive_right * CLHEP::cm, rmax_sensitive_right * CLHEP::cm, (zfor_sensitive_right - zback_sensitive_right)*CLHEP::cm / 2.0,
390 0 * CLHEP::deg, 360.*CLHEP::deg);
391 G4LogicalVolume* rightTube = new G4LogicalVolume(rightTubeShape, cdcMed,
392 (boost::format("logicalCDCLayer_%1%_rightTube") % iSLayer).str().c_str(), 0, 0, 0);
393
394 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zfor_sensitive_right + zback_sensitive_right)*CLHEP::cm / 2.0), rightTube,
395 (boost::format("physicalCDCLayer_%1%_rightTube") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
396
397
398 // Build a tube with metarial cdcMed for area 2
399 G4Tubs* rightMidTubeShape = new G4Tubs((boost::format("solidCDCLayer_%1%_rightMidTube") % iSLayer).str().c_str(),
400 rmin_sensitive_middle * CLHEP::cm, rmax_sensitive_middle * CLHEP::cm,
401 (length_feedthrough - zfor_sensitive_right + zback_sensitive_right)*CLHEP::cm / 2.0, 0 * CLHEP::deg, 360.*CLHEP::deg);
402 G4LogicalVolume* rightMidTube = new G4LogicalVolume(rightMidTubeShape, cdcMed,
403 (boost::format("logicalCDCLayer_%1%_rightMidTube") % iSLayer).str().c_str(), 0, 0, 0);
404 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zback_sensitive_right - length_feedthrough + zfor_sensitive_right)*CLHEP::cm / 2.0),
405 rightMidTube, (boost::format("physicalCDCLayer_%1%_rightMidTube") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
406
407 // Reset zback_sensitive_middle
408 zfor_sensitive_middle = zfor_sensitive_right - length_feedthrough;
409 }
410
411
412 // Middle sensitive tube
413 G4Tubs* middleSensitiveTubeShape = new G4Tubs((boost::format("solidSD_CDCLayer_%1%_middle") % iSLayer).str().c_str(),
414 rmin_sensitive_middle * CLHEP::cm, rmax_sensitive_middle * CLHEP::cm,
415 (zfor_sensitive_middle - zback_sensitive_middle)*CLHEP::cm / 2.0, 0 * CLHEP::deg, 360.*CLHEP::deg);
416 G4LogicalVolume* middleSensitiveTube = new G4LogicalVolume(middleSensitiveTubeShape, cdcMedGas,
417 (boost::format("logicalSD_CDCLayer_%1%_middle") % iSLayer).str().c_str(), 0, 0, 0);
418 //hard-coded temporarily
419 //need to create an object per layer ??? to be checked later
420 G4UserLimits* uLimits = new G4UserLimits(8.5 * CLHEP::cm);
421 m_userLimits.push_back(uLimits);
422 middleSensitiveTube->SetUserLimits(uLimits);
423 middleSensitiveTube->SetSensitiveDetector(m_sensitive);
424
425 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zfor_sensitive_middle + zback_sensitive_middle)*CLHEP::cm / 2.0), middleSensitiveTube,
426 (boost::format("physicalSD_CDCLayer_%1%_middle") % iSLayer).str().c_str(), m_logicalCDC, false, iSLayer);
427
428 // if (cdcgp.getMaterialDefinitionMode() == 2) {
429 if (gcp.getMaterialDefinitionMode() == 2) {
430 G4String sName = "sWire";
431 const G4int jc = 0;
432 B2Vector3D wb0 = cdcgp.wireBackwardPosition(iSLayer, jc);
433 // G4double rsense0 = wb0.Perp();
434 B2Vector3D wf0 = cdcgp.wireForwardPosition(iSLayer, jc);
435 G4double tAtZ0 = -wb0.Z() / (wf0.Z() - wb0.Z()); //t: param. along the wire
436 B2Vector3D wAtZ0 = wb0 + tAtZ0 * (wf0 - wb0);
437 //additional chop of wire; must be larger than 126um*(1/10), where 126um is the field wire diameter; 1/10: approx. stereo angle
438 const G4double epsl = 25.e-4; // (in cm);
439 G4double reductionBwd = (zback_sensitive_middle + epsl) / wb0.Z();
440 //chop the wire at zback_sensitive_middle for avoiding overlap; this is because the wire length defined by wb0 and wf0 is larger than the length of middle sensitive tube
441 wb0 = reductionBwd * (wb0 - wAtZ0) + wAtZ0;
442 //chop wire at zfor_sensitive_middle for avoiding overlap
443 G4double reductionFwd = (zfor_sensitive_middle - epsl) / wf0.Z();
444 wf0 = reductionFwd * (wf0 - wAtZ0) + wAtZ0;
445
446 const G4double wireHalfLength = 0.5 * (wf0 - wb0).Mag() * CLHEP::cm;
447 const G4double sWireRadius = 0.5 * cdcgp.senseWireDiameter() * CLHEP::cm;
448 // const G4double sWireRadius = 15.e-4 * CLHEP::cm;
449 G4Tubs* middleSensitiveSwireShape = new G4Tubs(sName, 0., sWireRadius, wireHalfLength, 0., 360. * CLHEP::deg);
450 G4LogicalVolume* middleSensitiveSwire = new G4LogicalVolume(middleSensitiveSwireShape, medTungsten, sName);
451 // middleSensitiveSwire->SetSensitiveDetector(m_sensitive);
452 middleSensitiveSwire->SetVisAttributes(m_VisAttributes.front()); // <- to speed up visualization
453
454 G4String fName = "fWire";
455 const G4double fWireRadius = 0.5 * cdcgp.fieldWireDiameter() * CLHEP::cm;
456 G4Tubs* middleSensitiveFwireShape = new G4Tubs(fName, 0., fWireRadius, wireHalfLength, 0., 360. * CLHEP::deg);
457 G4LogicalVolume* middleSensitiveFwire = new G4LogicalVolume(middleSensitiveFwireShape, medAluminum, fName);
458 // middleSensitiveFwire->SetSensitiveDetector(m_sensitive);
459 middleSensitiveFwire->SetVisAttributes(m_VisAttributes.front()); // <- to speed up visualization
460
461 const G4double diameter = cdcgp.fieldWireDiameter();
462
463 const G4int nCells = cdcgp.nWiresInLayer(iSLayer);
464 const G4double dphi = M_PI3.14159265358979323846 / nCells;
465 const B2Vector3D unitZ(0., 0., 1.);
466
467 for (int ic = 0; ic < nCells; ++ic) {
468 //define sense wire
469 B2Vector3D wb = cdcgp.wireBackwardPosition(iSLayer, ic);
470 B2Vector3D wf = cdcgp.wireForwardPosition(iSLayer, ic);
471 G4double tAtZ02 = -wb.Z() / (wf.Z() - wb.Z());
472 B2Vector3D wAtZ02 = wb + tAtZ02 * (wf - wb);
473 G4double reductionBwd2 = (zback_sensitive_middle + epsl) / wb.Z();
474 wb = reductionBwd2 * (wb - wAtZ02) + wAtZ02;
475 G4double reductionFwd2 = (zfor_sensitive_middle - epsl) / wf.Z();
476 wf = reductionFwd2 * (wf - wAtZ02) + wAtZ02;
477
478 G4double thetaYZ = -asin((wf - wb).Y() / (wf - wb).Mag());
479
480 B2Vector3D fMinusBInZX((wf - wb).X(), 0., (wf - wb).Z());
481 G4double thetaZX = asin((unitZ.Cross(fMinusBInZX)).Y() / fMinusBInZX.Mag());
482 G4RotationMatrix rotM;
483 // std::cout <<"deg,rad= " << CLHEP::deg <<" "<< CLHEP::rad << std::endl;
484 rotM.rotateX(thetaYZ * CLHEP::rad);
485 rotM.rotateY(thetaZX * CLHEP::rad);
486
487 G4ThreeVector xyz(0.5 * (wb.X() + wf.X()) * CLHEP::cm,
488 0.5 * (wb.Y() + wf.Y()) * CLHEP::cm, 0.);
489
490 // std::cout <<"0 x,y= " << xyz.getX() <<" "<< xyz.getY() << std::endl;
491 //Calling G4PVPlacement with G4Transform3D is convenient because it rotates the object instead of rotating the coordinate-frame; rotM is copied so it does not have to be created on heep by new.
492 new G4PVPlacement(G4Transform3D(rotM, xyz), middleSensitiveSwire, sName, middleSensitiveTube, false, ic);
493
494 //define field wire #1 (placed at the same phi but at the outer r boundary)
495 B2Vector3D wbF = wb;
496 G4double rF = rmax_sensitive_middle - 0.5 * diameter;
497 // std::cout <<"iSLayer,rF= " << iSLayer <<" "<< rF <<" "<< std::endl;
498 G4double phi = atan2(wbF.Y(), wbF.X());
499 wbF.SetX(rF * cos(phi));
500 wbF.SetY(rF * sin(phi));
501
502 B2Vector3D wfF = wf;
503 rF = rmax_sensitive_middle - 0.5 * diameter;
504 phi = atan2(wfF.Y(), wfF.X());
505 wfF.SetX(rF * cos(phi));
506 wfF.SetY(rF * sin(phi));
507
508 thetaYZ = -asin((wfF - wbF).Y() / (wfF - wbF).Mag());
509
510 fMinusBInZX = wfF - wbF;
511 fMinusBInZX.SetY(0.);
512 thetaZX = asin((unitZ.Cross(fMinusBInZX)).Y() / fMinusBInZX.Mag());
513
514 G4RotationMatrix rotM1;
515 rotM1.rotateX(thetaYZ * CLHEP::rad);
516 rotM1.rotateY(thetaZX * CLHEP::rad);
517
518 xyz.setX(0.5 * (wbF.X() + wfF.X()) * CLHEP::cm);
519 xyz.setY(0.5 * (wbF.Y() + wfF.Y()) * CLHEP::cm);
520
521 if (iSLayer != nSLayer - 1) {
522 // std::cout <<"1 x,y= " << xyz.getX() <<" "<< xyz.getY() << std::endl;
523 new G4PVPlacement(G4Transform3D(rotM1, xyz), middleSensitiveFwire, fName, middleSensitiveTube, false, ic);
524 }
525
526 //define field wire #2 (placed at the same radius but shifted by dphi)
527 wbF = wb;
528 rF = wbF.Perp();
529 phi = atan2(wbF.Y(), wbF.X());
530 wbF.SetX(rF * cos(phi + dphi));
531 wbF.SetY(rF * sin(phi + dphi));
532
533 wfF = wf;
534 rF = wfF.Perp();
535 phi = atan2(wfF.Y(), wfF.X());
536 wfF.SetX(rF * cos(phi + dphi));
537 wfF.SetY(rF * sin(phi + dphi));
538
539 thetaYZ = -asin((wfF - wbF).Y() / (wfF - wbF).Mag());
540
541 fMinusBInZX = wfF - wbF;
542 fMinusBInZX.SetY(0.);
543 thetaZX = asin((unitZ.Cross(fMinusBInZX)).Y() / fMinusBInZX.Mag());
544
545 G4RotationMatrix rotM2;
546 rotM2.rotateX(thetaYZ * CLHEP::rad);
547 rotM2.rotateY(thetaZX * CLHEP::rad);
548
549 xyz.setX(0.5 * (wbF.X() + wfF.X()) * CLHEP::cm);
550 xyz.setY(0.5 * (wbF.Y() + wfF.Y()) * CLHEP::cm);
551
552 // std::cout <<"2 x,y= " << xyz.getX() <<" "<< xyz.getY() << std::endl;
553 new G4PVPlacement(G4Transform3D(rotM2, xyz), middleSensitiveFwire, fName, middleSensitiveTube, false, ic + nCells);
554
555 //define field wire #3 (placed at the cell corner)
556 wbF = wb;
557 rF = rmax_sensitive_middle - 0.5 * diameter;
558 phi = atan2(wbF.Y(), wbF.X());
559 wbF.SetX(rF * cos(phi + dphi));
560 wbF.SetY(rF * sin(phi + dphi));
561
562 wfF = wf;
563 rF = rmax_sensitive_middle - 0.5 * diameter;
564 phi = atan2(wfF.Y(), wfF.X());
565 wfF.SetX(rF * cos(phi + dphi));
566 wfF.SetY(rF * sin(phi + dphi));
567
568 thetaYZ = -asin((wfF - wbF).Y() / (wfF - wbF).Mag());
569
570 fMinusBInZX = wfF - wbF;
571 fMinusBInZX.SetY(0.);
572 thetaZX = asin((unitZ.Cross(fMinusBInZX)).Y() / fMinusBInZX.Mag());
573
574 G4RotationMatrix rotM3;
575 rotM3.rotateX(thetaYZ * CLHEP::rad);
576 rotM3.rotateY(thetaZX * CLHEP::rad);
577
578 xyz.setX(0.5 * (wbF.X() + wfF.X()) * CLHEP::cm);
579 xyz.setY(0.5 * (wbF.Y() + wfF.Y()) * CLHEP::cm);
580
581 if (iSLayer != nSLayer - 1) {
582 new G4PVPlacement(G4Transform3D(rotM3, xyz), middleSensitiveFwire, fName, middleSensitiveTube, false, ic + 2 * nCells);
583 }
584 } // end of wire loop
585 } // end of wire definitions
586
587 }
588 //
589 // Endplates.
590 //
591
592 m_VisAttributes.push_back(new G4VisAttributes(true, G4Colour(1., 1., 0.)));
593 for (const auto& endplate : geo.getEndPlates()) {
594 for (const auto& epLayer : endplate.getEndPlateLayers()) {
595 const int iEPLayer = epLayer.getILayer();
596 const string name = epLayer.getName();
597 const double rmin = epLayer.getRmin();
598 const double rmax = epLayer.getRmax();
599 const double zbwd = epLayer.getZbwd();
600 const double zfwd = epLayer.getZfwd();
601 const double length = (zfwd - zbwd) / 2.0;
602
603 G4Tubs* tube = new G4Tubs("solidCDCEndplate" + name, rmin * CLHEP::cm,
604 rmax * CLHEP::cm, length * CLHEP::cm, 0 * CLHEP::deg, 360.*CLHEP::deg);
605 G4LogicalVolume* logical = new G4LogicalVolume(tube, Materials::get("G4_Al"),
606 "logicalCDCEndplate" + name, 0, 0);
607 logical->SetVisAttributes(m_VisAttributes.back());
608 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (zfwd + zbwd)*CLHEP::cm / 2.0), logical,
609 "physicalCDCEndplate" + name, m_logicalCDC, false, iEPLayer);
610
611 }
612 }
613
614
615 // Construct electronics boards
616 for (const auto& frontend : geo.getFrontends()) {
617
618 const int iEB = frontend.getId();
619 const double ebInnerR = frontend.getRmin();
620 const double ebOuterR = frontend.getRmax();
621 const double ebBZ = frontend.getZbwd();
622 const double ebFZ = frontend.getZfwd();
623
624 G4Tubs* ebTubeShape = new G4Tubs((boost::format("solidSD_ElectronicsBoard_Layer%1%") % iEB).str().c_str(), ebInnerR * CLHEP::cm,
625 ebOuterR * CLHEP::cm, (ebFZ - ebBZ)*CLHEP::cm / 2.0, 0 * CLHEP::deg, 360.*CLHEP::deg);
626
627 G4LogicalVolume* ebTube = new G4LogicalVolume(ebTubeShape, medNEMA_G10_Plate,
628 (boost::format("logicalSD_ElectronicsBoard_Layer%1%") % iEB).str().c_str(), 0, 0, 0);
629 if (!m_bkgsensitive) m_bkgsensitive = new BkgSensitiveDetector("CDC", iEB);
630 ebTube->SetSensitiveDetector(m_bkgsensitive);
631 ebTube->SetVisAttributes(m_VisAttributes.back());
632 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (ebFZ + ebBZ)*CLHEP::cm / 2.0), ebTube,
633 (boost::format("physicalSD_ElectronicsBoard_Layer%1%") % iEB).str().c_str(), m_logicalCDC, false, iEB);
634 }
635
636 //
637 // Construct neutron shield.
638 //
639 createNeutronShields(geo);
640
641 //
642 // construct covers.
643 //
644 createCovers(geo);
645
646 //
647 // construct covers.
648 //
649 createCover2s(geo);
650
651 //
652 // Construct ribs.
653 //
654 for (const auto& rib : geo.getRibs()) {
655
656 const int id = rib.getId();
657 const double length = rib.getLength();
658 const double width = rib.getWidth();
659 const double thick = rib.getThick();
660 const double rotx = rib.getRotX();
661 const double roty = rib.getRotY();
662 const double rotz = rib.getRotZ();
663 const double x = rib.getX();
664 const double y = rib.getY();
665 const double z = rib.getZ();
666 const int offset = rib.getOffset();
667 const int ndiv = rib.getNDiv();
668
669 const string solidName = "solidRib" + to_string(id);
670 const string logicalName = "logicalRib" + to_string(id);
671 G4Box* boxShape = new G4Box(solidName, 0.5 * length * CLHEP::cm,
672 0.5 * width * CLHEP::cm,
673 0.5 * thick * CLHEP::cm);
674
675 const double rmax = 0.5 * length;
676 const double rmin = max((rmax - thick), 0.);
677 G4Tubs* tubeShape = new G4Tubs(solidName,
678 rmin * CLHEP::cm,
679 rmax * CLHEP::cm,
680 0.5 * width * CLHEP::cm,
681 0.,
682 360. * CLHEP::deg);
683
684 //G4LogicalVolume* logicalV = new G4LogicalVolume(boxShape, medAluminum,
685 // logicalName, 0, 0, 0);
686 // ID dependent material definition, Aluminum is default
687 G4LogicalVolume* logicalV = new G4LogicalVolume(boxShape, medAluminum, logicalName, 0, 0, 0);
688 if (id > 39 && id < 78) // Cu
689 logicalV = new G4LogicalVolume(boxShape, medCopper, logicalName, 0, 0, 0);
690 if ((id > 77 && id < 94) || (id > 131 && id < 146)) // G10
691 logicalV = new G4LogicalVolume(boxShape, medNEMA_G10_Plate, logicalName, 0, 0, 0);
692 if (id > 93 && id < 110) // Cu
693 logicalV = new G4LogicalVolume(tubeShape, medCopper, logicalName, 0, 0, 0);
694 if (id > 109 && id < 126) // H2O
695 logicalV = new G4LogicalVolume(tubeShape, medH2O, logicalName, 0, 0, 0);
696 if (id > 127 && id < 132) // HV
697 logicalV = new G4LogicalVolume(boxShape, medHV, logicalName, 0, 0, 0);
698 /*if( id > 145 && id < 149 )// Fiber
699 logicalV = new G4LogicalVolume(boxShape, medFiber, logicalName, 0, 0, 0);
700 if( id > 148 && id < 158 )// Fiber
701 logicalV = new G4LogicalVolume(boxShape, medCAT7, logicalName, 0, 0, 0);
702 if( id > 157 && id < 164 )// Fiber
703 logicalV = new G4LogicalVolume(boxShape, medTRG, logicalName, 0, 0, 0);*/
704
705 logicalV->SetVisAttributes(m_VisAttributes.back());
706
707 const double phi = 360.0 / ndiv;
708
709 G4RotationMatrix rot = G4RotationMatrix();
710 double dz = thick;
711 if (id > 93 && id < 126) dz = 0;
712
713 G4ThreeVector arm(x * CLHEP::cm, y * CLHEP::cm, z * CLHEP::cm - dz * CLHEP::cm / 2.0);
714 rot.rotateX(rotx);
715 rot.rotateY(roty);
716 rot.rotateZ(rotz);
717 if (offset) {
718 rot.rotateZ(0.5 * phi * CLHEP::deg);
719 arm.rotateZ(0.5 * phi * CLHEP::deg);
720 }
721 for (int i = 0; i < ndiv; ++i) {
722 const string physicalName = "physicalRib_" + to_string(id) + " " + to_string(i);
723 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
724 physicalName.c_str(), m_logicalCDC, false, id);
725 rot.rotateZ(phi * CLHEP::deg);
726 arm.rotateZ(phi * CLHEP::deg);
727 }
728
729 }
730
731 //
732 // Construct rib2s.
733 //
734 for (const auto& rib2 : geo.getRib2s()) {
735
736 const int id = rib2.getId();
737 const double length = rib2.getLength();
738 const double width = rib2.getWidth();
739 const double thick = rib2.getThick();
740 const double width2 = rib2.getWidth2();
741 const double thick2 = rib2.getThick2();
742 const double rotx = rib2.getRotX();
743 const double roty = rib2.getRotY();
744 const double rotz = rib2.getRotZ();
745 const double x = rib2.getX();
746 const double y = rib2.getY();
747 const double z = rib2.getZ();
748 const int ndiv = rib2.getNDiv();
749
750 const string solidName = "solidRib2" + to_string(id);
751 const string logicalName = "logicalRib2" + to_string(id);
752 G4Trd* trdShape = new G4Trd(solidName,
753 0.5 * thick * CLHEP::cm,
754 0.5 * thick2 * CLHEP::cm,
755 0.5 * width * CLHEP::cm,
756 0.5 * width2 * CLHEP::cm,
757 0.5 * length * CLHEP::cm);
758
759 G4LogicalVolume* logicalV = new G4LogicalVolume(trdShape, medAluminum, logicalName, 0, 0, 0);
760
761 if (id > 0)
762 logicalV = new G4LogicalVolume(trdShape, medCopper, logicalName, 0, 0, 0);
763
764 logicalV->SetVisAttributes(m_VisAttributes.back());
765
766 const double phi = 360.0 / ndiv;
767
768 G4RotationMatrix rot = G4RotationMatrix();
769 G4ThreeVector arm(x * CLHEP::cm, y * CLHEP::cm, z * CLHEP::cm - thick * CLHEP::cm / 2.0);
770
771 rot.rotateX(rotx);
772 rot.rotateY(roty);
773 rot.rotateZ(rotz);
774 for (int i = 0; i < ndiv; ++i) {
775 const string physicalName = "physicalRib2_" + to_string(id) + " " + to_string(i);
776 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
777 physicalName.c_str(), m_logicalCDC, false, id);
778 rot.rotateZ(phi * CLHEP::deg);
779 arm.rotateZ(phi * CLHEP::deg);
780 }
781
782 }
783
784 //
785 // Construct rib3s.
786 //
787 for (const auto& rib3 : geo.getRib3s()) {
788
789 const int id = rib3.getId();
790 const double length = rib3.getLength();
791 const double width = rib3.getWidth();
792 const double thick = rib3.getThick();
793 const double r = rib3.getR();
794 const double x = rib3.getX();
795 const double y = rib3.getY();
796 const double z = rib3.getZ();
797 const double rx = rib3.getRx();
798 const double ry = rib3.getRy();
799 const double rz = rib3.getRz();
800 const int offset = rib3.getOffset();
801 const int ndiv = rib3.getNDiv();
802
803 const string logicalName = "logicalRib3" + to_string(id);
804 G4VSolid* boxShape = new G4Box("Block",
805 0.5 * length * CLHEP::cm,
806 0.5 * width * CLHEP::cm,
807 0.5 * thick * CLHEP::cm);
808 G4VSolid* tubeShape = new G4Tubs("Hole",
809 0.,
810 r * CLHEP::cm,
811 width * CLHEP::cm,
812 0. * CLHEP::deg,
813 360. * CLHEP::deg);
814
815 G4RotationMatrix rotsub = G4RotationMatrix();
816 rotsub.rotateX(90. * CLHEP::deg);
817 G4ThreeVector trnsub(rx * CLHEP::cm - x * CLHEP::cm, ry * CLHEP::cm - y * CLHEP::cm,
818 rz * CLHEP::cm - z * CLHEP::cm + 0.5 * thick * CLHEP::cm);
819 G4VSolid* coolingBlock = new G4SubtractionSolid("Block-Hole",
820 boxShape,
821 tubeShape,
822 G4Transform3D(rotsub,
823 trnsub));
824
825 G4LogicalVolume* logicalV = new G4LogicalVolume(coolingBlock, medCopper, logicalName, 0, 0, 0);
826
827 logicalV->SetVisAttributes(m_VisAttributes.back());
828
829 const double phi = 360.0 / ndiv;
830
831 G4RotationMatrix rot = G4RotationMatrix();
832 G4ThreeVector arm(x * CLHEP::cm, y * CLHEP::cm, z * CLHEP::cm - thick * CLHEP::cm / 2.0);
833
834 if (offset) {
835 rot.rotateZ(0.5 * phi * CLHEP::deg);
836 arm.rotateZ(0.5 * phi * CLHEP::deg);
837 }
838 for (int i = 0; i < ndiv; ++i) {
839 const string physicalName = "physicalRib3_" + to_string(id) + " " + to_string(i);
840 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
841 physicalName.c_str(), m_logicalCDC, false, id);
842 rot.rotateZ(phi * CLHEP::deg);
843 arm.rotateZ(phi * CLHEP::deg);
844 }
845
846 }
847
848 //
849 // Construct rib4s.
850 //
851 for (const auto& rib4 : geo.getRib4s()) {
852
853 const int id = rib4.getId();
854 const double length = rib4.getLength();
855 const double width = rib4.getWidth();
856 const double thick = rib4.getThick();
857 const double length2 = rib4.getLength2();
858 const double width2 = rib4.getWidth2();
859 const double thick2 = rib4.getThick2();
860 const double x = rib4.getX();
861 const double y = rib4.getY();
862 const double z = rib4.getZ();
863 const double x2 = rib4.getX2();
864 const double y2 = rib4.getY2();
865 const double z2 = rib4.getZ2();
866 const int offset = rib4.getOffset();
867 const int ndiv = rib4.getNDiv();
868
869 const string logicalName = "logicalRib4" + to_string(id);
870 G4VSolid* baseShape = new G4Box("Base",
871 0.5 * length * CLHEP::cm,
872 0.5 * width * CLHEP::cm,
873 0.5 * thick * CLHEP::cm);
874 G4VSolid* sqShape = new G4Box("Sq",
875 0.5 * length2 * CLHEP::cm,
876 0.5 * width2 * CLHEP::cm,
877 0.5 * thick2 * CLHEP::cm);
878
879 G4RotationMatrix rotsub = G4RotationMatrix();
880 double dzc = (z2 - thick2 / 2.) - (z - thick / 2.);
881 G4ThreeVector trnsub(x2 * CLHEP::cm - x * CLHEP::cm,
882 y2 * CLHEP::cm - y * CLHEP::cm,
883 dzc * CLHEP::cm);
884 G4VSolid* sqHoleBase = new G4SubtractionSolid("Box-Sq",
885 baseShape,
886 sqShape,
887 G4Transform3D(rotsub,
888 trnsub)
889 );
890
891 G4LogicalVolume* logicalV = new G4LogicalVolume(sqHoleBase, medCopper, logicalName, 0, 0, 0);
892 if (id < 19) {
893 logicalV = new G4LogicalVolume(sqHoleBase, medNEMA_G10_Plate, logicalName, 0, 0, 0);
894 BkgSensitiveDetector* sensitiveDetector =
895 new BkgSensitiveDetector("CDC", 2000 + id);
896 logicalV->SetSensitiveDetector(sensitiveDetector);
897 m_BkgSensitiveRib4.push_back(sensitiveDetector);
898 }
899
900 logicalV->SetVisAttributes(m_VisAttributes.back());
901
902 const double phi = 360.0 / ndiv;
903
904 G4RotationMatrix rot = G4RotationMatrix();
905 G4ThreeVector arm(x * CLHEP::cm, y * CLHEP::cm, z * CLHEP::cm - thick * CLHEP::cm / 2.0);
906
907 if (offset) {
908 rot.rotateZ(0.5 * phi * CLHEP::deg);
909 arm.rotateZ(0.5 * phi * CLHEP::deg);
910 }
911 for (int i = 0; i < ndiv; ++i) {
912 const string physicalName = "physicalRib4_" + to_string(id) + " " + to_string(i);
913 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
914 physicalName.c_str(), m_logicalCDC, false, id);
915 rot.rotateZ(phi * CLHEP::deg);
916 arm.rotateZ(phi * CLHEP::deg);
917 }
918
919 }
920 //
921 // Construct rib5s.
922 //
923 for (const auto& rib5 : geo.getRib5s()) {
924
925 const int id = rib5.getId();
926 const double dr = rib5.getDr();
927 const double dz = rib5.getDz();
928 const double width = rib5.getWidth();
929 const double thick = rib5.getThick();
930 const double rin = rib5.getRin();
931 const double x = rib5.getX();
932 const double y = rib5.getY();
933 const double z = rib5.getZ();
934 const double rotx = rib5.getRotx();
935 const double roty = rib5.getRoty();
936 const double rotz = rib5.getRotz();
937 const int offset = rib5.getOffset();
938 const int ndiv = rib5.getNDiv();
939
940 const string solidName = "solidRib5" + to_string(id);
941 const string logicalName = "logicalRib5" + to_string(id);
942
943 const double rmax = rin + thick;
944 const double rmin = rin;
945 const double dphi = 2. * atan2(dz, dr);
946 const double ddphi = thick * tan(dphi) / rin;
947 const double ddphi2 = width / 2. * width / 2. / (x + dr) / rin;
948 const double cphi = dphi - ddphi - ddphi2;
949 G4Tubs* tubeShape = new G4Tubs(solidName,
950 rmin * CLHEP::cm,
951 rmax * CLHEP::cm,
952 0.5 * width * CLHEP::cm,
953 0.,
954 cphi);
955
956 G4LogicalVolume* logicalV = new G4LogicalVolume(tubeShape, medAluminum, logicalName, 0, 0, 0);
957
958 logicalV->SetVisAttributes(m_VisAttributes.back());
959
960 const double phi = 360.0 / ndiv;
961
962 G4RotationMatrix rot = G4RotationMatrix();
963
964 //G4ThreeVector arm(x * CLHEP::cm, y * CLHEP::cm, z * CLHEP::cm - thick * CLHEP::cm / 2.0);
965 G4ThreeVector arm(x * CLHEP::cm, y * CLHEP::cm, z * CLHEP::cm - rin * CLHEP::cm - thick * CLHEP::cm);
966 rot.rotateX(rotx);
967 rot.rotateY(roty);
968 rot.rotateZ(rotz);
969 if (offset) {
970 rot.rotateZ(0.5 * phi * CLHEP::deg);
971 arm.rotateZ(0.5 * phi * CLHEP::deg);
972 }
973 for (int i = 0; i < ndiv; ++i) {
974 const string physicalName = "physicalRib5_" + to_string(id) + " " + to_string(i);
975 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
976 physicalName.c_str(), m_logicalCDC, false, id);
977 rot.rotateZ(phi * CLHEP::deg);
978 arm.rotateZ(phi * CLHEP::deg);
979 }
980
981 }
982
983 //Create B-field mapper (here tentatively)
984 createMapper(topVolume);
985 }
986
987
988 void GeoCDCCreator::createNeutronShields(const GearDir& content)
989 {
990
991 // G4Material* C2H4 = geometry::Materials::get("G4_POLYETHYLENE");
992 // G4Material* elB = geometry::Materials::get("G4_B");
993
994 // 5% borated polyethylene = SWX201
995 // http://www.deqtech.com/Shieldwerx/Products/swx201hd.htm
996 // G4Material* boratedpoly05 = new G4Material("BoratedPoly05", 1.06 * CLHEP::g / CLHEP::cm3, 2);
997 // boratedpoly05->AddMaterial(elB, 0.05);
998 // boratedpoly05->AddMaterial(C2H4, 0.95);
999 // 30% borated polyethylene = SWX210
1000 // G4Material* boratedpoly30 = new G4Material("BoratedPoly30", 1.19 * CLHEP::g / CLHEP::cm3, 2);
1001 // boratedpoly30->AddMaterial(elB, 0.30);
1002 // boratedpoly30->AddMaterial(C2H4, 0.70);
1003
1004 // G4Material* shieldMat = C2H4;
1005
1006 G4Material* SWX238 = geometry::Materials::get("CDC-SWX-238");
1007 G4Material* shieldMat = SWX238;
1008
1009 const int nShields = content.getNumberNodes("Shields/Shield");
1010
1011 for (int iShield = 0; iShield < nShields; ++iShield) {
1012 GearDir shieldContent(content);
1013 shieldContent.append((boost::format("/Shields/Shield[%1%]/") % (iShield + 1)).str());
1014 const string sShieldID = shieldContent.getString("@id");
1015 const int shieldID = atoi(sShieldID.c_str());
1016 // const string shieldName = shieldContent.getString("Name");
1017 const double shieldInnerR1 = shieldContent.getLength("InnerR1");
1018 const double shieldInnerR2 = shieldContent.getLength("InnerR2");
1019 const double shieldOuterR1 = shieldContent.getLength("OuterR1");
1020 const double shieldOuterR2 = shieldContent.getLength("OuterR2");
1021 const double shieldThick = shieldContent.getLength("Thickness");
1022 const double shieldPosZ = shieldContent.getLength("PosZ");
1023 const int enableShield = shieldContent.getInt("Enable");
1024
1025 G4Cons* shieldConsShape = new G4Cons((boost::format("solidShield%1%") % shieldID).str().c_str(),
1026 shieldInnerR1 * CLHEP::cm, shieldOuterR1 * CLHEP::cm,
1027 shieldInnerR2 * CLHEP::cm, shieldOuterR2 * CLHEP::cm,
1028 shieldThick * CLHEP::cm / 2.0,
1029 0.*CLHEP::deg, 360.*CLHEP::deg);
1030
1031 G4LogicalVolume* shieldCons = new G4LogicalVolume(shieldConsShape, shieldMat,
1032 (boost::format("logicalShield%1%") % shieldID).str().c_str(),
1033 0, 0, 0);
1034 shieldCons->SetVisAttributes(m_VisAttributes.back());
1035
1036 if (enableShield) {
1037 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (shieldPosZ - shieldThick / 2.0) * CLHEP::cm), shieldCons,
1038 (boost::format("physicalShield%1%") % shieldID).str().c_str(), m_logicalCDC, false, 0);
1039 G4cout << "_____________" << G4endlstd::endl << shieldCons->GetName() << " (Shield) : mass = " << shieldCons->GetMass() / CLHEP::kg <<
1040 " | materials : " << shieldCons->GetMaterial() << G4endlstd::endl << "_____________" << G4endlstd::endl;
1041 }
1042
1043 }
1044
1045 }
1046
1047
1048 void GeoCDCCreator::createNeutronShields(const CDCGeometry& geom)
1049 {
1050
1051 // G4Material* C2H4 = geometry::Materials::get("G4_POLYETHYLENE");
1052 // G4Material* shieldMat = C2H4;
1053
1054 G4Material* SWX238 = geometry::Materials::get("CDC-SWX-238");
1055 G4Material* shieldMat = SWX238;
1056
1057 for (const auto& shield : geom.getNeutronShields()) {
1058 const int shieldID = shield.getId();
1059 const double shieldInnerR1 = shield.getRmin1();
1060 const double shieldInnerR2 = shield.getRmin2();
1061 const double shieldOuterR1 = shield.getRmax1();
1062 const double shieldOuterR2 = shield.getRmax2();
1063 const double shieldThick = shield.getThick();
1064 const double shieldPosZ = shield.getZ();
1065 const int enableShield = shield.getEna();
1066
1067 G4Cons* shieldConsShape = new G4Cons("solidShield" + to_string(shieldID),
1068 shieldInnerR1 * CLHEP::cm, shieldOuterR1 * CLHEP::cm,
1069 shieldInnerR2 * CLHEP::cm, shieldOuterR2 * CLHEP::cm,
1070 shieldThick * CLHEP::cm / 2.0,
1071 0.*CLHEP::deg, 360.*CLHEP::deg);
1072
1073 G4LogicalVolume* shieldCons = new G4LogicalVolume(shieldConsShape, shieldMat, "logicalShield" + to_string(shieldID),
1074 0, 0, 0);
1075 shieldCons->SetVisAttributes(m_VisAttributes.back());
1076
1077 if (enableShield) {
1078 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, (shieldPosZ - shieldThick / 2.0) * CLHEP::cm), shieldCons,
1079 "physicalShield" + to_string(shieldID), m_logicalCDC, false, 0);
1080 G4cout << "_____________" << G4endlstd::endl << shieldCons->GetName() << " (Shield) : mass = " << shieldCons->GetMass() / CLHEP::kg <<
1081 " | materials : " << shieldCons->GetMaterial() << G4endlstd::endl << "_____________" << G4endlstd::endl;
1082 }
1083
1084 }
1085
1086 }
1087
1088 void GeoCDCCreator::createCovers(const GearDir& content)
1089 {
1090 string Aluminum = content.getString("Aluminum");
1091 G4Material* medAluminum = geometry::Materials::get(Aluminum);
1092 G4Material* medNEMA_G10_Plate = geometry::Materials::get("NEMA_G10_Plate");
1093 G4double density = 1.000 * CLHEP::g / CLHEP::cm3;
1094 G4double a = 1.01 * CLHEP::g / CLHEP::mole;
1095 G4Element* elH = new G4Element("Hydrogen", "H", 1., a);
1096 a = 16.00 * CLHEP::g / CLHEP::mole;
1097 G4Element* elO = new G4Element("Oxygen", "O", 8., a);
1098 G4Material* medH2O = new G4Material("Water", density, 2);
1099 medH2O->AddElement(elH, 2);
1100 medH2O->AddElement(elO, 1);
1101 G4Material* medCopper = geometry::Materials::get("Cu");
1102 G4Material* medLV = geometry::Materials::get("CDCLVCable");
1103 G4Material* medFiber = geometry::Materials::get("CDCOpticalFiber");
1104 G4Material* medCAT7 = geometry::Materials::get("CDCCAT7");
1105 G4Material* medTRG = geometry::Materials::get("CDCOpticalFiberTRG");
1106 G4Material* medHV = geometry::Materials::get("CDCHVCable");
1107
1108 m_VisAttributes.push_back(new G4VisAttributes(true, G4Colour(0., 1., 0.)));
1109 const int nCover = content.getNumberNodes("Covers/Cover");
1110 for (int iCover = 0; iCover < nCover; ++iCover) {
1
Assuming 'iCover' is >= 'nCover'
2
Loop condition is false. Execution continues on line 1161
1111 GearDir coverContent(content);
1112 coverContent.append((boost::format("/Covers/Cover[%1%]/") % (iCover + 1)).str());
1113 const string scoverID = coverContent.getString("@id");
1114 const int coverID = atoi(scoverID.c_str());
1115 const string coverName = coverContent.getString("Name");
1116 const double coverInnerR1 = coverContent.getLength("InnerR1");
1117 const double coverInnerR2 = coverContent.getLength("InnerR2");
1118 const double coverOuterR1 = coverContent.getLength("OuterR1");
1119 const double coverOuterR2 = coverContent.getLength("OuterR2");
1120 const double coverThick = coverContent.getLength("Thickness");
1121 const double coverPosZ = coverContent.getLength("PosZ");
1122
1123 const double rmin1 = coverInnerR1;
1124 const double rmax1 = coverOuterR1;
1125 const double rmin2 = coverInnerR2;
1126 const double rmax2 = coverOuterR2;
1127
1128 /*
1129 if (coverID == 7 || coverID == 10) {
1130 createCone(rmin1, rmax1, rmin2, rmax2, coverThick, coverPosZ, coverID, medAluminum, coverName);
1131 } else {
1132 createTube(rmin1, rmax1, coverThick, coverPosZ, coverID, medAluminum, coverName);
1133
1134 }*/
1135 // ID dependent material definition
1136 if (coverID < 23) {
1137 if (coverID == 7 || coverID == 10) {// cones
1138 createCone(rmin1, rmax1, rmin2, rmax2, coverThick, coverPosZ, coverID, medAluminum, coverName);
1139 } else {// covers
1140 createTube(rmin1, rmax1, coverThick, coverPosZ, coverID, medAluminum, coverName);
1141 }
1142 }
1143 if (coverID > 22 && coverID < 29)// cooling plate
1144 createTube(rmin1, rmax1, coverThick, coverPosZ, coverID, medCopper, coverName);
1145 if (coverID > 28 && coverID < 35)// cooling Pipe
1146 createTorus(rmin1, rmax1, coverThick, coverPosZ, coverID, medCopper, coverName);
1147 if (coverID > 34 && coverID < 41)// cooling water
1148 createTorus(rmin1, rmax1, coverThick, coverPosZ, coverID, medH2O, coverName);
1149 if (coverID == 45 || coverID == 46)
1150 createTube(rmin1, rmax1, coverThick, coverPosZ, coverID, medLV, coverName);
1151 if (coverID == 47 || coverID == 48)
1152 createTube(rmin1, rmax1, coverThick, coverPosZ, coverID, medFiber, coverName);
1153 if (coverID == 49 || coverID == 50)
1154 createTube(rmin1, rmax1, coverThick, coverPosZ, coverID, medCAT7, coverName);
1155 if (coverID == 51 || coverID == 52)
1156 createTube(rmin1, rmax1, coverThick, coverPosZ, coverID, medTRG, coverName);
1157 if (coverID == 53)
1158 createTube(rmin1, rmax1, coverThick, coverPosZ, coverID, medHV, coverName);
1159 }
1160
1161 const int nCover2 = content.getNumberNodes("Covers/Cover2");
1162 for (int iCover2 = 0; iCover2 < nCover2; ++iCover2) {
3
Assuming 'iCover2' is >= 'nCover2'
4
Loop condition is false. Execution continues on line 1185
1163 GearDir cover2Content(content);
1164 cover2Content.append((boost::format("/Cover2s/Cover2[%1%]/") % (iCover2 + 1)).str());
1165 const string scover2ID = cover2Content.getString("@id");
1166 const int cover2ID = atoi(scover2ID.c_str());
1167 const string cover2Name = cover2Content.getString("Name");
1168 const double cover2InnerR = cover2Content.getLength("InnerR");
1169 const double cover2OuterR = cover2Content.getLength("OuterR");
1170 const double cover2StartPhi = cover2Content.getLength("StartPhi");
1171 const double cover2DeltaPhi = cover2Content.getLength("DeltaPhi");
1172 const double cover2Thick = cover2Content.getLength("Thickness");
1173 const double cover2PosZ = cover2Content.getLength("PosZ");
1174
1175 if (cover2ID < 11)
1176 createTube2(cover2InnerR, cover2OuterR, cover2StartPhi, cover2DeltaPhi, cover2Thick, cover2PosZ, cover2ID, medHV, cover2Name);
1177 if (cover2ID > 10 && cover2ID < 14)
1178 createTube2(cover2InnerR, cover2OuterR, cover2StartPhi, cover2DeltaPhi, cover2Thick, cover2PosZ, cover2ID, medFiber, cover2Name);
1179 if (cover2ID > 13 && cover2ID < 23)
1180 createTube2(cover2InnerR, cover2OuterR, cover2StartPhi, cover2DeltaPhi, cover2Thick, cover2PosZ, cover2ID, medCAT7, cover2Name);
1181 if (cover2ID > 22 && cover2ID < 29)
1182 createTube2(cover2InnerR, cover2OuterR, cover2StartPhi, cover2DeltaPhi, cover2Thick, cover2PosZ, cover2ID, medTRG, cover2Name);
1183 }
1184
1185 const int nRibs = content.getNumberNodes("Covers/Rib");
1186 for (int iRib = 0; iRib < nRibs; ++iRib) {
5
Assuming 'iRib' is < 'nRibs'
6
Loop condition is true. Entering loop body
1187 GearDir ribContent(content);
1188 ribContent.append((boost::format("/Covers/Rib[%1%]/") % (iRib + 1)).str());
1189 const string sribID = ribContent.getString("@id");
1190 const int ribID = atoi(sribID.c_str());
1191 // const string ribName = ribContent.getString("Name");
1192 const double length = ribContent.getLength("Length");
1193 const double width = ribContent.getLength("Width");
1194 const double thick = ribContent.getLength("Thickness");
1195 const double rotX = ribContent.getLength("RotX");
1196 const double rotY = ribContent.getLength("RotY");
1197 const double rotZ = ribContent.getLength("RotZ");
1198 const double cX = ribContent.getLength("PosX");
1199 const double cY = ribContent.getLength("PosY");
1200 const double cZ = ribContent.getLength("PosZ");
1201 const int offset = atoi((ribContent.getString("Offset")).c_str());
1202 const int number = atoi((ribContent.getString("NDiv")).c_str());
1203
1204 const string solidName = "solidRib" + to_string(ribID);
1205 const string logicalName = "logicalRib" + to_string(ribID);
1206 G4Box* boxShape = new G4Box(solidName, 0.5 * length * CLHEP::cm,
1207 0.5 * width * CLHEP::cm,
1208 0.5 * thick * CLHEP::cm);
1209 const double rmax = 0.5 * length;
1210 const double rmin = max((rmax - thick), 0.);
1211 G4Tubs* tubeShape = new G4Tubs(solidName,
1212 rmin * CLHEP::cm,
1213 rmax * CLHEP::cm,
1214 0.5 * width * CLHEP::cm,
1215 0.,
1216 360. * CLHEP::deg);
1217
1218 //G4LogicalVolume* logicalV = new G4LogicalVolume(boxShape, medAluminum,
1219 // logicalName, 0, 0, 0);
1220 // ID dependent material definition Aluminum is default
1221 G4LogicalVolume* logicalV = new G4LogicalVolume(boxShape, medAluminum, logicalName, 0, 0, 0);
7
Memory is allocated
1222 if (ribID
7.1
'ribID' is > 39
7.1
'ribID' is > 39
 > 39 && ribID
7.2
'ribID' is >= 78
7.2
'ribID' is >= 78
 < 78) // Cu box
1223 logicalV = new G4LogicalVolume(boxShape, medCopper, logicalName, 0, 0, 0);
1224 if ((ribID
7.3
'ribID' is > 77
7.3
'ribID' is > 77
 > 77 && ribID
7.4
'ribID' is >= 94
7.4
'ribID' is >= 94
 < 94) || (ribID > 131 && ribID < 146)) // G10 box
8
Assuming 'ribID' is <= 131
1225 logicalV = new G4LogicalVolume(boxShape, medNEMA_G10_Plate, logicalName, 0, 0, 0);
1226 if (ribID
8.1
'ribID' is > 93
8.1
'ribID' is > 93
 > 93 && ribID < 110) // Cu tube
9
Assuming 'ribID' is < 110
10
Taking true branch
1227 logicalV = new G4LogicalVolume(tubeShape, medCopper, logicalName, 0, 0, 0);
1228 if (ribID > 109 && ribID < 126) // H2O tube (rmin = 0)
11
Potential leak of memory pointed to by 'logicalV'
1229 logicalV = new G4LogicalVolume(tubeShape, medH2O, logicalName, 0, 0, 0);
1230 [[clang::suppress]]
1231 if (ribID > 127 && ribID < 132) // cppcheck-suppress syntaxError // HV bundle
1232 logicalV = new G4LogicalVolume(boxShape, medHV, logicalName, 0, 0, 0);
1233 /*if( ribID > 145 && ribID < 149 )// Fiber box
1234 logicalV = new G4LogicalVolume(boxShape, medFiber, logicalName, 0, 0, 0);
1235 if( ribID > 148 && ribID < 158 )// Fiber box
1236 logicalV = new G4LogicalVolume(boxShape, medCAT7, logicalName, 0, 0, 0);
1237 if( ribID > 157 && ribID < 164 )// Fiber box
1238 logicalV = new G4LogicalVolume(boxShape, medTRG, logicalName, 0, 0, 0);*/
1239
1240 logicalV->SetVisAttributes(m_VisAttributes.back());
1241
1242 const double phi = 360.0 / number;
1243
1244 G4RotationMatrix rot = G4RotationMatrix();
1245
1246 double dz = thick;
1247 if (ribID > 93 && ribID < 126) dz = 0;
1248 G4ThreeVector arm(cX * CLHEP::cm, cY * CLHEP::cm, cZ * CLHEP::cm - dz * CLHEP::cm / 2.0);
1249
1250 rot.rotateX(rotX);
1251 rot.rotateY(rotY);
1252 rot.rotateZ(rotZ);
1253 if (offset) {
1254 rot.rotateZ(0.5 * phi * CLHEP::deg);
1255 arm.rotateZ(0.5 * phi * CLHEP::deg);
1256 }
1257 for (int i = 0; i < number; ++i) {
1258 const string physicalName = "physicalRib_" + to_string(ribID) + " " + to_string(i);
1259 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
1260 physicalName.c_str(), m_logicalCDC, false, ribID);
1261 rot.rotateZ(phi * CLHEP::deg);
1262 arm.rotateZ(phi * CLHEP::deg);
1263 }
1264
1265 }// rib
1266
1267 const int nRib2s = content.getNumberNodes("Covers/Rib2");
1268 for (int iRib2 = 0; iRib2 < nRib2s; ++iRib2) {
1269 GearDir rib2Content(content);
1270 rib2Content.append((boost::format("/Covers/Rib2[%1%]/") % (iRib2 + 1)).str());
1271 const string srib2ID = rib2Content.getString("@id");
1272 const int rib2ID = atoi(srib2ID.c_str());
1273 // const string rib2Name = rib2Content.getString("Name");
1274 const double length = rib2Content.getLength("Length");
1275 const double width = rib2Content.getLength("Width");
1276 const double thick = rib2Content.getLength("Thickness");
1277 const double width2 = rib2Content.getLength("Width2");
1278 const double thick2 = rib2Content.getLength("Thickness2");
1279 const double rotX = rib2Content.getLength("RotX");
1280 const double rotY = rib2Content.getLength("RotY");
1281 const double rotZ = rib2Content.getLength("RotZ");
1282 const double cX = rib2Content.getLength("PosX");
1283 const double cY = rib2Content.getLength("PosY");
1284 const double cZ = rib2Content.getLength("PosZ");
1285 const int number = atoi((rib2Content.getString("NDiv")).c_str());
1286
1287 const string solidName = "solidRib2" + to_string(rib2ID);
1288 const string logicalName = "logicalRib2" + to_string(rib2ID);
1289 G4Trd* trdShape = new G4Trd(solidName,
1290 0.5 * thick * CLHEP::cm,
1291 0.5 * thick2 * CLHEP::cm,
1292 0.5 * width * CLHEP::cm,
1293 0.5 * width2 * CLHEP::cm,
1294 0.5 * length * CLHEP::cm);
1295
1296 G4LogicalVolume* logicalV = new G4LogicalVolume(trdShape, medAluminum, logicalName, 0, 0, 0);
1297 if (rib2ID > 0)
1298 logicalV = new G4LogicalVolume(trdShape, medCopper, logicalName, 0, 0, 0);
1299
1300 [[clang::suppress]]
1301 logicalV->SetVisAttributes(m_VisAttributes.back());
1302
1303 const double phi = 360.0 / number;
1304
1305 G4RotationMatrix rot = G4RotationMatrix();
1306 G4ThreeVector arm(cX * CLHEP::cm, cY * CLHEP::cm, cZ * CLHEP::cm - thick * CLHEP::cm / 2.0);
1307
1308 rot.rotateX(rotX);
1309 rot.rotateY(rotY);
1310 rot.rotateZ(rotZ);
1311 for (int i = 0; i < number; ++i) {
1312 const string physicalName = "physicalRib2_" + to_string(rib2ID) + " " + to_string(i);
1313 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
1314 physicalName.c_str(), m_logicalCDC, false, rib2ID);
1315 rot.rotateZ(phi * CLHEP::deg);
1316 arm.rotateZ(phi * CLHEP::deg);
1317 }
1318
1319 }// rib2
1320
1321 const int nRib3s = content.getNumberNodes("Covers/Rib3");
1322 for (int iRib3 = 0; iRib3 < nRib3s; ++iRib3) {
1323 GearDir rib3Content(content);
1324 rib3Content.append((boost::format("/Covers/Rib3[%1%]/") % (iRib3 + 1)).str());
1325 const string srib3ID = rib3Content.getString("@id");
1326 const int rib3ID = atoi(srib3ID.c_str());
1327 // const string rib3Name = rib3Content.getString("Name");
1328 const double length = rib3Content.getLength("Length");
1329 const double width = rib3Content.getLength("Width");
1330 const double thick = rib3Content.getLength("Thickness");
1331 const double r = rib3Content.getLength("HoleR");
1332 const double cX = rib3Content.getLength("PosX");
1333 const double cY = rib3Content.getLength("PosY");
1334 const double cZ = rib3Content.getLength("PosZ");
1335 const double hX = rib3Content.getLength("HoleX");
1336 const double hY = rib3Content.getLength("HoleY");
1337 const double hZ = rib3Content.getLength("HoleZ");
1338 const int offset = atoi((rib3Content.getString("Offset")).c_str());
1339 const int number = atoi((rib3Content.getString("NDiv")).c_str());
1340
1341 const string logicalName = "logicalRib3" + to_string(rib3ID);
1342 G4VSolid* boxShape = new G4Box("Block",
1343 0.5 * length * CLHEP::cm,
1344 0.5 * width * CLHEP::cm,
1345 0.5 * thick * CLHEP::cm);
1346 G4VSolid* tubeShape = new G4Tubs("Hole",
1347 0.,
1348 r * CLHEP::cm,
1349 length * CLHEP::cm,
1350 0.,
1351 360. * CLHEP::deg);
1352 G4RotationMatrix rotsub = G4RotationMatrix();
1353 G4ThreeVector trnsub(cX * CLHEP::cm - hX * CLHEP::cm, cY * CLHEP::cm - hY * CLHEP::cm,
1354 cZ * CLHEP::cm - hZ * CLHEP::cm + 0.5 * thick * CLHEP::cm);
1355 G4VSolid* coolingBlock = new G4SubtractionSolid("Block-Hole",
1356 boxShape,
1357 tubeShape,
1358 G4Transform3D(rotsub,
1359 trnsub));
1360
1361 G4LogicalVolume* logicalV = new G4LogicalVolume(coolingBlock, medCopper, logicalName, 0, 0, 0);
1362
1363 logicalV->SetVisAttributes(m_VisAttributes.back());
1364
1365 const double phi = 360.0 / number;
1366
1367 G4RotationMatrix rot = G4RotationMatrix();
1368 G4ThreeVector arm(cX * CLHEP::cm, cY * CLHEP::cm, cZ * CLHEP::cm - thick * CLHEP::cm / 2.0);
1369
1370 if (offset) {
1371 rot.rotateZ(0.5 * phi * CLHEP::deg);
1372 arm.rotateZ(0.5 * phi * CLHEP::deg);
1373 }
1374 for (int i = 0; i < number; ++i) {
1375 const string physicalName = "physicalRib3_" + to_string(rib3ID) + " " + to_string(i);
1376 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
1377 physicalName.c_str(), m_logicalCDC, false, rib3ID);
1378 rot.rotateZ(phi * CLHEP::deg);
1379 arm.rotateZ(phi * CLHEP::deg);
1380 }
1381
1382 }// rib3
1383
1384 const int nRib4s = content.getNumberNodes("Covers/Rib4");
1385 for (int iRib4 = 0; iRib4 < nRib4s; ++iRib4) {
1386 GearDir rib4Content(content);
1387 rib4Content.append((boost::format("/Covers/Rib4[%1%]/") % (iRib4 + 1)).str());
1388 const string srib4ID = rib4Content.getString("@id");
1389 const int rib4ID = atoi(srib4ID.c_str());
1390 // const string rib4Name = rib4Content.getString("Name");
1391 const double length = rib4Content.getLength("Length");
1392 const double width = rib4Content.getLength("Width");
1393 const double thick = rib4Content.getLength("Thickness");
1394 const double length2 = rib4Content.getLength("Length2");
1395 const double width2 = rib4Content.getLength("Width2");
1396 const double thick2 = rib4Content.getLength("Thickness2");
1397 const double cX = rib4Content.getLength("PosX");
1398 const double cY = rib4Content.getLength("PosY");
1399 const double cZ = rib4Content.getLength("PosZ");
1400 const double hX = rib4Content.getLength("HoleX");
1401 const double hY = rib4Content.getLength("HoleY");
1402 const double hZ = rib4Content.getLength("HoleZ");
1403 const int offset = atoi((rib4Content.getString("Offset")).c_str());
1404 const int number = atoi((rib4Content.getString("NDiv")).c_str());
1405
1406 const string logicalName = "logicalRib4" + to_string(rib4ID);
1407 G4VSolid* baseShape = new G4Box("Base",
1408 0.5 * length * CLHEP::cm,
1409 0.5 * width * CLHEP::cm,
1410 0.5 * thick * CLHEP::cm);
1411 G4VSolid* sqShape = new G4Box("Sq",
1412 0.5 * length2 * CLHEP::cm,
1413 0.5 * width2 * CLHEP::cm,
1414 0.5 * thick2 * CLHEP::cm);
1415 G4RotationMatrix rotsub = G4RotationMatrix();
1416 double dzc = (hZ - thick2 / 2.) - (cZ - thick / 2.);
1417 G4ThreeVector trnsub(hX * CLHEP::cm - cX * CLHEP::cm,
1418 hY * CLHEP::cm - cY * CLHEP::cm,
1419 dzc * CLHEP::cm);
1420 G4VSolid* sqHoleBase = new G4SubtractionSolid("Base-Sq",
1421 baseShape,
1422 sqShape,
1423 G4Transform3D(rotsub,
1424 trnsub)
1425 );
1426
1427 G4LogicalVolume* logicalV = new G4LogicalVolume(sqHoleBase, medCopper, logicalName, 0, 0, 0);
1428 if (rib4ID < 19)
1429 logicalV = new G4LogicalVolume(sqHoleBase, medNEMA_G10_Plate, logicalName, 0, 0, 0);
1430
1431 logicalV->SetVisAttributes(m_VisAttributes.back());
1432
1433 const double phi = 360.0 / number;
1434
1435 G4RotationMatrix rot = G4RotationMatrix();
1436 G4ThreeVector arm(cX * CLHEP::cm, cY * CLHEP::cm, cZ * CLHEP::cm - thick * CLHEP::cm / 2.0);
1437
1438 if (offset) {
1439 rot.rotateZ(0.5 * phi * CLHEP::deg);
1440 arm.rotateZ(0.5 * phi * CLHEP::deg);
1441 }
1442 for (int i = 0; i < number; ++i) {
1443 const string physicalName = "physicalRib4_" + to_string(rib4ID) + " " + to_string(i);
1444 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
1445 physicalName.c_str(), m_logicalCDC, false, rib4ID);
1446 rot.rotateZ(phi * CLHEP::deg);
1447 arm.rotateZ(phi * CLHEP::deg);
1448 }
1449
1450 }// rib4
1451
1452 const int nRib5s = content.getNumberNodes("Covers/Rib5");
1453 for (int iRib5 = 0; iRib5 < nRib5s; ++iRib5) {
1454 GearDir rib5Content(content);
1455 rib5Content.append((boost::format("/Covers/Rib5[%1%]/") % (iRib5 + 1)).str());
1456 const string srib5ID = rib5Content.getString("@id");
1457 const int rib5ID = atoi(srib5ID.c_str());
1458 // const string rib5Name = rib5Content.getString("Name");
1459 const double dr = rib5Content.getLength("DeltaR");
1460 const double dz = rib5Content.getLength("DeltaZ");
1461 const double width = rib5Content.getLength("Width");
1462 const double thick = rib5Content.getLength("Thickness");
1463 const double rin = rib5Content.getLength("Rin");
1464 const double rotX = rib5Content.getLength("RotX");
1465 const double rotY = rib5Content.getLength("RotY");
1466 const double rotZ = rib5Content.getLength("RotZ");
1467 const double cX = rib5Content.getLength("PosX");
1468 const double cY = rib5Content.getLength("PosY");
1469 const double cZ = rib5Content.getLength("PosZ");
1470 const int offset = atoi((rib5Content.getString("Offset")).c_str());
1471 const int number = atoi((rib5Content.getString("NDiv")).c_str());
1472
1473 const string solidName = "solidRib5" + to_string(rib5ID);
1474 const string logicalName = "logicalRib5" + to_string(rib5ID);
1475 const double rmax = rin + thick;
1476 const double rmin = rin;
1477 const double dphi = 2. * atan2(dz, dr);
1478 const double ddphi = thick * tan(dphi) / rin;
1479 const double ddphi2 = width / 2. * width / 2. / (cX + dr) / rin;
1480 const double cphi = dphi - ddphi - ddphi2;
1481 G4Tubs* tubeShape = new G4Tubs(solidName,
1482 rmin * CLHEP::cm,
1483 rmax * CLHEP::cm,
1484 0.5 * width * CLHEP::cm,
1485 0.,
1486 cphi);
1487
1488 G4LogicalVolume* logicalV = new G4LogicalVolume(tubeShape, medAluminum, logicalName, 0, 0, 0);
1489
1490 logicalV->SetVisAttributes(m_VisAttributes.back());
1491
1492 const double phi = 360.0 / number;
1493
1494 G4RotationMatrix rot = G4RotationMatrix();
1495
1496 //G4ThreeVector arm(cX * CLHEP::cm, cY * CLHEP::cm, cZ * CLHEP::cm - thick * CLHEP::cm / 2.0);
1497 G4ThreeVector arm(cX * CLHEP::cm, cY * CLHEP::cm, cZ * CLHEP::cm - rin * CLHEP::cm - thick * CLHEP::cm);
1498
1499 rot.rotateX(rotX);
1500 rot.rotateY(rotY);
1501 rot.rotateZ(rotZ);
1502 if (offset) {
1503 rot.rotateZ(0.5 * phi * CLHEP::deg);
1504 arm.rotateZ(0.5 * phi * CLHEP::deg);
1505 }
1506 for (int i = 0; i < number; ++i) {
1507 const string physicalName = "physicalRib5_" + to_string(rib5ID) + " " + to_string(i);
1508 new G4PVPlacement(G4Transform3D(rot, arm), logicalV,
1509 physicalName.c_str(), m_logicalCDC, false, rib5ID);
1510 rot.rotateZ(phi * CLHEP::deg);
1511 arm.rotateZ(phi * CLHEP::deg);
1512 }
1513 }//rib5
1514
1515 }
1516
1517
1518 void GeoCDCCreator::createCovers(const CDCGeometry& geom)
1519 {
1520 G4Material* medAl = geometry::Materials::get("Al");
1521 G4double density = 1.000 * CLHEP::g / CLHEP::cm3;
1522 G4double a = 1.01 * CLHEP::g / CLHEP::mole;
1523 G4Element* elH = new G4Element("Hydrogen", "H", 1., a);
1524 a = 16.00 * CLHEP::g / CLHEP::mole;
1525 G4Element* elO = new G4Element("Oxygen", "O", 8., a);
1526 G4Material* medH2O = new G4Material("water", density, 2);
1527 medH2O->AddElement(elH, 2);
1528 medH2O->AddElement(elO, 1);
1529 G4Material* medCu = geometry::Materials::get("Cu");
1530 G4Material* medLV = geometry::Materials::get("CDCLVCable");
1531 G4Material* medFiber = geometry::Materials::get("CDCOpticalFiber");
1532 G4Material* medCAT7 = geometry::Materials::get("CDCCAT7");
1533 G4Material* medTRG = geometry::Materials::get("CDCOpticalFiberTRG");
1534 G4Material* medHV = geometry::Materials::get("CDCHVCable");
1535
1536 m_VisAttributes.push_back(new G4VisAttributes(true, G4Colour(0., 1., 0.)));
1537 for (const auto& cover : geom.getCovers()) {
1538 const int coverID = cover.getId();
1539 const string coverName = "cover" + to_string(coverID);
1540 const double rmin1 = cover.getRmin1();
1541 const double rmin2 = cover.getRmin2();
1542 const double rmax1 = cover.getRmax1();
1543 const double rmax2 = cover.getRmax2();
1544 const double thick = cover.getThick();
1545 const double posZ = cover.getZ();
1546
1547 /*if (coverID == 7 || coverID == 10) {
1548 createCone(rmin1, rmax1, rmin2, rmax2, thick, posZ, coverID, medAl, coverName);
1549 } else {
1550 createTube(rmin1, rmax1, thick, posZ, coverID, medAl, coverName);
1551 }*/
1552 // ID dependent material definition
1553 if (coverID < 23) {
1554 if (coverID == 7 || coverID == 10) {
1555 createCone(rmin1, rmax1, rmin2, rmax2, thick, posZ, coverID, medAl, coverName);
1556 } else {
1557 createTube(rmin1, rmax1, thick, posZ, coverID, medAl, coverName);
1558 }
1559 }
1560 if (coverID > 22 && coverID < 29)
1561 createTube(rmin1, rmax1, thick, posZ, coverID, medCu, coverName);
1562 if (coverID > 28 && coverID < 35)
1563 createTorus(rmin1, rmax1, thick, posZ, coverID, medCu, coverName);
1564 if (coverID > 34 && coverID < 41)
1565 createTorus(rmin1, rmax1, thick, posZ, coverID, medH2O, coverName);
1566 if (coverID == 45 || coverID == 46)
1567 createTube(rmin1, rmax1, thick, posZ, coverID, medLV, coverName);
1568 if (coverID == 47 || coverID == 48)
1569 createTube(rmin1, rmax1, thick, posZ, coverID, medFiber, coverName);
1570 if (coverID == 49 || coverID == 50)
1571 createTube(rmin1, rmax1, thick, posZ, coverID, medCAT7, coverName);
1572 if (coverID == 51 || coverID == 52)
1573 createTube(rmin1, rmax1, thick, posZ, coverID, medTRG, coverName);
1574 if (coverID == 53)
1575 createTube(rmin1, rmax1, thick, posZ, coverID, medHV, coverName);
1576 }
1577 }
1578
1579 void GeoCDCCreator::createCover2s(const CDCGeometry& geom)
1580 {
1581 G4Material* medHV = geometry::Materials::get("CDCHVCable");
1582 G4Material* medFiber = geometry::Materials::get("CDCOpticalFiber");
1583 G4Material* medCAT7 = geometry::Materials::get("CDCCAT7");
1584 G4Material* medTRG = geometry::Materials::get("CDCOpticalFiberTRG");
1585
1586 m_VisAttributes.push_back(new G4VisAttributes(true, G4Colour(0., 1., 0.)));
1587 for (const auto& cover2 : geom.getCover2s()) {
1588 const int cover2ID = cover2.getId();
1589 const string cover2Name = "cover2" + to_string(cover2ID);
1590 const double rmin = cover2.getRmin();
1591 const double rmax = cover2.getRmax();
1592 const double phis = cover2.getPhis();
1593 const double dphi = cover2.getDphi();
1594 const double thick = cover2.getThick();
1595 const double posZ = cover2.getZ();
1596
1597 if (cover2ID < 11)
1598 createTube2(rmin, rmax, phis, dphi, thick, posZ, cover2ID, medHV, cover2Name);
1599 if (cover2ID > 10 && cover2ID < 14)
1600 createTube2(rmin, rmax, phis, dphi, thick, posZ, cover2ID, medFiber, cover2Name);
1601 if (cover2ID > 13 && cover2ID < 23)
1602 createTube2(rmin, rmax, phis, dphi, thick, posZ, cover2ID, medCAT7, cover2Name);
1603 if (cover2ID > 22 && cover2ID < 29)
1604 createTube2(rmin, rmax, phis, dphi, thick, posZ, cover2ID, medTRG, cover2Name);
1605 }
1606 }
1607
1608 void GeoCDCCreator::createCone(const double rmin1, const double rmax1,
1609 const double rmin2, const double rmax2,
1610 const double thick, const double posZ,
1611 const int id, G4Material* med,
1612 const string& name)
1613 {
1614 const string solidName = "solid" + name;
1615 const string logicalName = "logical" + name;
1616 const string physicalName = "physical" + name;
1617 G4Cons* coverConeShape = new G4Cons(solidName.c_str(), rmin1 * CLHEP::cm, rmax1 * CLHEP::cm,
1618 rmin2 * CLHEP::cm, rmax2 * CLHEP::cm, thick * CLHEP::cm / 2.0, 0.*CLHEP::deg, 360.*CLHEP::deg);
1619 G4LogicalVolume* coverCone = new G4LogicalVolume(coverConeShape, med,
1620 logicalName.c_str(), 0, 0, 0);
1621 coverCone->SetVisAttributes(m_VisAttributes.back());
1622 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, posZ * CLHEP::cm - thick * CLHEP::cm / 2.0), coverCone,
1623 physicalName.c_str(), m_logicalCDC, false, id);
1624
1625 }
1626
1627 void GeoCDCCreator::createTube(const double rmin, const double rmax,
1628 const double thick, const double posZ,
1629 const int id, G4Material* med,
1630 const string& name)
1631 {
1632 const string solidName = "solid" + name;
1633 const string logicalName = "logical" + name;
1634 const string physicalName = "physical" + name;
1635 G4Tubs* solidV = new G4Tubs(solidName.c_str(),
1636 rmin * CLHEP::cm,
1637 rmax * CLHEP::cm,
1638 thick * CLHEP::cm / 2.0,
1639 0.*CLHEP::deg,
1640 360.*CLHEP::deg);
1641 G4LogicalVolume* logicalV = new G4LogicalVolume(solidV, med,
1642 logicalName.c_str(), 0, 0, 0);
1643 logicalV->SetVisAttributes(m_VisAttributes.back());
1644 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, posZ * CLHEP::cm - thick * CLHEP::cm / 2.0), logicalV,
1645 physicalName.c_str(), m_logicalCDC, false, id);
1646
1647 }
1648
1649 void GeoCDCCreator::createBox(const double length, const double height,
1650 const double thick, const double x,
1651 const double y, const double z,
1652 const int id, G4Material* med,
1653 const string& name)
1654 {
1655 const string solidName = (boost::format("solid%1%%2%") % name % id).str();
1656 const string logicalName = (boost::format("logical%1%%2%") % name % id).str();
1657 const string physicalName = (boost::format("physical%1%%2%") % name % id).str();
1658 G4Box* boxShape = new G4Box(solidName.c_str(), 0.5 * length * CLHEP::cm,
1659 0.5 * height * CLHEP::cm,
1660 0.5 * thick * CLHEP::cm);
1661 G4LogicalVolume* logicalV = new G4LogicalVolume(boxShape, med,
1662 logicalName.c_str(), 0, 0, 0);
1663 logicalV->SetVisAttributes(m_VisAttributes.back());
1664 new G4PVPlacement(0, G4ThreeVector(x * CLHEP::cm, y * CLHEP::cm, z * CLHEP::cm - thick * CLHEP::cm / 2.0), logicalV,
1665 physicalName.c_str(), m_logicalCDC, false, id);
1666
1667 }
1668
1669 void GeoCDCCreator::createTorus(const double rmin1, const double rmax1,
1670 const double thick, const double posZ,
1671 const int id, G4Material* med,
1672 const string& name)
1673 {
1674 const string solidName = "solid" + name;
1675 const string logicalName = "logical" + name;
1676 const string physicalName = "physical" + name;
1677 const double rtor = (rmax1 + rmin1) / 2.;
1678 const double rmax = rmax1 - rtor;
1679 const double rmin = max((rmax - thick), 0.);
1680
1681 G4Torus* solidV = new G4Torus(solidName.c_str(),
1682 rmin * CLHEP::cm,
1683 rmax * CLHEP::cm,
1684 rtor * CLHEP::cm,
1685 0.*CLHEP::deg,
1686 360.*CLHEP::deg);
1687 G4LogicalVolume* logicalV = new G4LogicalVolume(solidV, med,
1688 logicalName.c_str(), 0, 0, 0);
1689 logicalV->SetVisAttributes(m_VisAttributes.back());
1690 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, posZ * CLHEP::cm), logicalV,
1691 physicalName.c_str(), m_logicalCDC, false, id);
1692
1693 }
1694
1695 void GeoCDCCreator::createTube2(const double rmin, const double rmax,
1696 const double phis, const double phie,
1697 const double thick, const double posZ,
1698 const int id, G4Material* med,
1699 const string& name)
1700 {
1701 const string solidName = "solid" + name;
1702 const string logicalName = "logical" + name;
1703 const string physicalName = "physical" + name;
1704 G4Tubs* solidV = new G4Tubs(solidName.c_str(),
1705 rmin * CLHEP::cm,
1706 rmax * CLHEP::cm,
1707 thick * CLHEP::cm / 2.0,
1708 phis,
1709 phie);
1710 G4LogicalVolume* logicalV = new G4LogicalVolume(solidV, med,
1711 logicalName.c_str(), 0, 0, 0);
1712 logicalV->SetVisAttributes(m_VisAttributes.back());
1713 new G4PVPlacement(0, G4ThreeVector(0.0, 0.0, posZ * CLHEP::cm - thick * CLHEP::cm / 2.0), logicalV,
1714 physicalName.c_str(), m_logicalCDC, false, id);
1715
1716 }
1717
1718 void GeoCDCCreator::createMapper(G4LogicalVolume& topVolume)
1719 {
1720 CDCGeoControlPar& gcp = CDCGeoControlPar::getInstance();
1721 if (!gcp.getMapperGeometry()) return;
1722
1723 const double xc = 0.5 * (-0.0002769 + 0.0370499) * CLHEP::cm;
1724 const double yc = 0.5 * (-0.0615404 + -0.108948) * CLHEP::cm;
1725 const double zc = 0.5 * (-35.3 + 48.5) * CLHEP::cm;
1726 //3 plates
1727 // const double plateWidth = 13.756 * CLHEP::cm;
1728 // const double plateThick = 1.203 * CLHEP::cm;
1729 // const double plateLength = 83.706 * CLHEP::cm;
1730 const double plateWidth = 13.8 * CLHEP::cm;
1731 const double plateThick = 1.2 * CLHEP::cm;
1732 const double plateLength = 83.8 * CLHEP::cm;
1733 const double phi = gcp.getMapperPhiAngle() * CLHEP::deg; //phi-angle in lab.
1734 // std::cout << "phi= " << phi << std::endl;
1735 // const double endRingRmin = 4.1135 * CLHEP::cm;
1736 // const double endRingRmax = 15.353 * CLHEP::cm;
1737 // const double endRingThick = 2.057 * CLHEP::cm;
1738 const double endPlateRmin = 4.0 * CLHEP::cm;
1739 const double endPlateRmax = 15.5 * CLHEP::cm;
1740 const double bwdEndPlateThick = 1.7 * CLHEP::cm;
1741 const double fwdEndPlateThick = 2.0 * CLHEP::cm;
1742
1743 G4Material* medAluminum = geometry::Materials::get("Al");
1744
1745 string name = "Plate";
1746 int pID = 0;
1747 G4Box* plateShape = new G4Box("solid" + name, .5 * plateWidth, .5 * plateThick, .5 * plateLength);
1748 G4LogicalVolume* logical0 = new G4LogicalVolume(plateShape, medAluminum, "logical" + name, 0, 0, 0);
1749 logical0->SetVisAttributes(m_VisAttributes.back());
1750 // const double x = .5 * plateWidth;
1751 const double x = xc + 0.5 * plateWidth;
1752 // const double y = endRingRmin;
1753 const double y = yc + endPlateRmin + 0.1 * CLHEP::cm;
1754 // double z = 2.871 * CLHEP::cm;
1755 G4ThreeVector xyz(x, y, zc);
1756 G4RotationMatrix rotM3 = G4RotationMatrix();
1757 xyz.rotateZ(phi);
1758 rotM3.rotateZ(phi);
1759 new G4PVPlacement(G4Transform3D(rotM3, xyz), logical0, "physical" + name, &topVolume, false, pID);
1760
1761 const double alf = 120. * CLHEP::deg;
1762 xyz.rotateZ(alf);
1763 rotM3.rotateZ(alf);
1764 new G4PVPlacement(G4Transform3D(rotM3, xyz), logical0, "physical" + name, &topVolume, false, pID + 1);
1765
1766 xyz.rotateZ(alf);
1767 rotM3.rotateZ(alf);
1768 new G4PVPlacement(G4Transform3D(rotM3, xyz), logical0, "physical" + name, &topVolume, false, pID + 2);
1769
1770 //Define 2 end-plates
1771 //bwd
1772 name = "BwdEndPlate";
1773 G4Tubs* BwdEndPlateShape = new G4Tubs("solid" + name, endPlateRmin, endPlateRmax, 0.5 * bwdEndPlateThick, 0., 360.*CLHEP::deg);
1774 G4LogicalVolume* logical1 = new G4LogicalVolume(BwdEndPlateShape, medAluminum, "logical" + name, 0, 0, 0);
1775 logical1->SetVisAttributes(m_VisAttributes.back());
1776 // z = -40.0105 * CLHEP::cm;
1777 double z = -35.3 * CLHEP::cm - 0.5 * bwdEndPlateThick;
1778 pID = 0;
1779 new G4PVPlacement(0, G4ThreeVector(xc, yc, z), logical1, "physical" + name, &topVolume, false, pID);
1780
1781 //fwd
1782 // z = 45.7525 * CLHEP::cm;
1783 // new G4PVPlacement(0, G4ThreeVector(0., 0., z), logical1, "physical" + name, &topVolume, false, pID + 1);
1784 name = "FwdEndPlate";
1785 G4Tubs* FwdEndPlateShape = new G4Tubs("solid" + name, endPlateRmin, endPlateRmax, 0.5 * fwdEndPlateThick, 0., 360.*CLHEP::deg);
1786 G4LogicalVolume* logical2 = new G4LogicalVolume(FwdEndPlateShape, medAluminum, "logical" + name, 0, 0, 0);
1787 logical2->SetVisAttributes(m_VisAttributes.back());
1788 z = 48.5 * CLHEP::cm + 0.5 * fwdEndPlateThick;
1789 new G4PVPlacement(0, G4ThreeVector(xc, yc, z), logical2, "physical" + name, &topVolume, false, pID);
1790 }
1791
1792 bool GeoCDCCreator::getEndplateInformation(const CDCGeometry& geo, const uint iSLayer,
1793 double& rMinLeft, double& rMaxLeft, double& zBackLeft, double& zForLeft,
1794 double& rMinMiddle, double& rMaxMiddle, double& zBackMiddle, double& zForMiddle,
1795 double& rMinRight, double& rMaxRight, double& zBackRight, double& zForRight) const
1796 {
1797 const auto& endplate = geo.getEndPlate(iSLayer);
1798 const int nEPLayer = endplate.getNEndPlateLayers();
1799
1800 if (iSLayer == 0) {
1801 const auto& epLayerBwd = endplate.getEndPlateLayer(0);
1802 const auto& epLayerFwd = endplate.getEndPlateLayer(nEPLayer / 2);
1803 const auto& senseLayer = geo.getSenseLayer(iSLayer);
1804 const auto& fieldLayer = geo.getFieldLayer(iSLayer);
1805
1806 rMinLeft = epLayerBwd.getRmax();
1807 rMaxLeft = fieldLayer.getR();
1808 zBackLeft = senseLayer.getZbwd();
1809 zForLeft = epLayerBwd.getZfwd();
1810
1811 rMinMiddle = (geo.getInnerWall(0)).getRmax();
1812 rMaxMiddle = fieldLayer.getR();
1813 zBackMiddle = epLayerBwd.getZfwd();
1814 zForMiddle = epLayerFwd.getZbwd();
1815
1816 rMinRight = epLayerFwd.getRmax();
1817 rMaxRight = fieldLayer.getR();
1818 zBackRight = epLayerFwd.getZbwd();
1819 zForRight = senseLayer.getZfwd();
1820 } else if (iSLayer >= 1 && iSLayer <= 14) {
1821 const auto& epLayerBwd = endplate.getEndPlateLayer(1);
1822 const auto& epLayerFwd = endplate.getEndPlateLayer((nEPLayer / 2) + 1);
1823 const auto& senseLayer = geo.getSenseLayer(iSLayer);
1824 const auto& fieldLayerIn = geo.getFieldLayer(iSLayer - 1);
1825 const auto& fieldLayerOut = geo.getFieldLayer(iSLayer);
1826
1827 rMinLeft = epLayerBwd.getRmax();
1828 rMaxLeft = fieldLayerOut.getR();
1829 zBackLeft = senseLayer.getZbwd();
1830 zForLeft = epLayerBwd.getZfwd();
1831
1832 rMinMiddle = fieldLayerIn.getR();
1833 rMaxMiddle = fieldLayerOut.getR();
1834 zBackMiddle = epLayerBwd.getZfwd();
1835 zForMiddle = epLayerFwd.getZbwd();
1836
1837 rMinRight = epLayerFwd.getRmax();
1838 rMaxRight = fieldLayerOut.getR();
1839 zBackRight = epLayerFwd.getZbwd();
1840 zForRight = senseLayer.getZfwd();
1841 } else if (iSLayer >= 15 && iSLayer <= 18) {
1842 const auto& epLayerBwd = endplate.getEndPlateLayer(1);
1843 const auto& epLayerFwd = endplate.getEndPlateLayer(nEPLayer / 2);
1844 const auto& senseLayer = geo.getSenseLayer(iSLayer);
1845 const auto& fieldLayerIn = geo.getFieldLayer(iSLayer - 1);
1846 const auto& fieldLayerOut = geo.getFieldLayer(iSLayer);
1847
1848 rMinLeft = epLayerBwd.getRmax();
1849 rMaxLeft = fieldLayerOut.getR();
1850 zBackLeft = senseLayer.getZbwd();
1851 zForLeft = epLayerBwd.getZfwd();
1852
1853 rMinMiddle = fieldLayerIn.getR();
1854 rMaxMiddle = fieldLayerOut.getR();
1855 zBackMiddle = epLayerBwd.getZfwd();
1856 zForMiddle = epLayerFwd.getZbwd();
1857
1858 rMinRight = epLayerFwd.getRmax();
1859 rMaxRight = fieldLayerOut.getR();
1860 zBackRight = epLayerFwd.getZbwd();
1861 zForRight = senseLayer.getZfwd();
1862 } else if (iSLayer >= 19 && iSLayer < 55) {
1863 const auto& epLayerBwd = endplate.getEndPlateLayer(0);
1864 const auto& epLayerFwd = endplate.getEndPlateLayer(nEPLayer / 2);
1865 const auto& senseLayer = geo.getSenseLayer(iSLayer);
1866 const auto& fieldLayerIn = geo.getFieldLayer(iSLayer - 1);
1867 const auto& fieldLayerOut = geo.getFieldLayer(iSLayer);
1868
1869 rMinLeft = epLayerBwd.getRmax();
1870 rMaxLeft = fieldLayerOut.getR();
1871 zBackLeft = senseLayer.getZbwd();
1872 zForLeft = epLayerBwd.getZfwd();
1873
1874 rMinMiddle = fieldLayerIn.getR();
1875 rMaxMiddle = fieldLayerOut.getR();
1876 zBackMiddle = epLayerBwd.getZfwd();
1877 zForMiddle = epLayerFwd.getZbwd();
1878
1879 rMinRight = epLayerFwd.getRmax();
1880 rMaxRight = fieldLayerOut.getR();
1881 zBackRight = epLayerFwd.getZbwd();
1882 zForRight = senseLayer.getZfwd();
1883
1884 } else if (iSLayer == 55) {
1885
1886 const auto& epLayerBwdIn = endplate.getEndPlateLayer(0);
1887 const auto& epLayerBwdOut = endplate.getEndPlateLayer((nEPLayer / 2) - 1);
1888 const auto& epLayerFwdIn = endplate.getEndPlateLayer(nEPLayer / 2);
1889 const auto& epLayerFwdOut = endplate.getEndPlateLayer(nEPLayer - 1);
1890 const auto& senseLayer = geo.getSenseLayer(iSLayer);
1891
1892 int iSLayerMinus1 = iSLayer - 1; //avoid cpp-check warning
1893 const auto& fieldLayerIn = geo.getFieldLayer(iSLayerMinus1); //avoid cpp-check warning
1894 rMinLeft = epLayerBwdIn.getRmax();
1895 rMaxLeft = epLayerBwdOut.getRmax();
1896 zBackLeft = senseLayer.getZbwd();
1897 zForLeft = epLayerBwdIn.getZfwd();
1898
1899 rMinMiddle = fieldLayerIn.getR();
1900 rMaxMiddle = (geo.getOuterWall(0)).getRmin();
1901 zBackMiddle = epLayerBwdIn.getZfwd();
1902 zForMiddle = epLayerFwdIn.getZbwd();
1903
1904 rMinRight = epLayerFwdIn.getRmax();
1905 rMaxRight = epLayerFwdOut.getRmax();
1906 zBackRight = epLayerFwdIn.getZbwd();
1907 zForRight = senseLayer.getZfwd();
1908
1909 } else {
1910 B2ERROR("Undefined sensitive layer : " << iSLayer)do { { LogVariableStream varStream; varStream << "Undefined sensitive layer : "
<< iSLayer; Belle2::LogSystem::Instance().sendMessage(
Belle2::LogMessage(Belle2::LogConfig::c_Error, std::move(varStream
), "cdc", __PRETTY_FUNCTION__, "cdc/geometry/src/GeoCDCCreator.cc"
, 1910, 0)); } } while(false);
1911 return false;
1912 }
1913 return true;
1914 }
1915 }
1916}

/cvmfs/belle.cern.ch/el9/externals/v02-04-00/Linux_x86_64/common/include/c++/bits/basic_string.h

1// Components for manipulating sequences of characters -*- C++ -*-
2
3// Copyright (C) 1997-2025 Free Software Foundation, Inc.
4//
5// This file is part of the GNU ISO C++ Library. This library is free
6// software; you can redistribute it and/or modify it under the
7// terms of the GNU General Public License as published by the
8// Free Software Foundation; either version 3, or (at your option)
9// any later version.
10
11// This library is distributed in the hope that it will be useful,
12// but WITHOUT ANY WARRANTY; without even the implied warranty of
13// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14// GNU General Public License for more details.
15
16// Under Section 7 of GPL version 3, you are granted additional
17// permissions described in the GCC Runtime Library Exception, version
18// 3.1, as published by the Free Software Foundation.
19
20// You should have received a copy of the GNU General Public License and
21// a copy of the GCC Runtime Library Exception along with this program;
22// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
23// <http://www.gnu.org/licenses/>.
24
25/** @file bits/basic_string.h
26 * This is an internal header file, included by other library headers.
27 * Do not attempt to use it directly. @headername{string}
28 */
29
30//
31// ISO C++ 14882: 21 Strings library
32//
33
34#ifndef _BASIC_STRING_H1
35#define _BASIC_STRING_H1 1
36
37#ifdef _GLIBCXX_SYSHDR
38#pragma GCC system_header
39#endif
40
41#include <ext/alloc_traits.h>
42#include <debug/debug.h>
43
44#if __cplusplus202002L >= 201103L
45#include <initializer_list>
46#endif
47
48#include <bits/version.h>
49
50#ifdef __glibcxx_string_view201803L // >= C++17
51# include <string_view>
52#endif
53
54#if __glibcxx_containers_ranges // C++ >= 23
55# include <bits/ranges_algobase.h> // ranges::copy
56# include <bits/ranges_util.h> // ranges::subrange
57#endif
58
59#if __cplusplus202002L > 202302L
60# include <charconv>
61#endif
62
63
64#if ! _GLIBCXX_USE_CXX11_ABI1
65# include "cow_string.h"
66#else
67
68namespace std _GLIBCXX_VISIBILITY(default)__attribute__ ((__visibility__ ("default")))
69{
70_GLIBCXX_BEGIN_NAMESPACE_VERSION
71_GLIBCXX_BEGIN_NAMESPACE_CXX11namespace __cxx11 {
72
73 /**
74 * @class basic_string basic_string.h <string>
75 * @brief Managing sequences of characters and character-like objects.
76 *
77 * @ingroup strings
78 * @ingroup sequences
79 * @headerfile string
80 * @since C++98
81 *
82 * @tparam _CharT Type of character
83 * @tparam _Traits Traits for character type, defaults to
84 * char_traits<_CharT>.
85 * @tparam _Alloc Allocator type, defaults to allocator<_CharT>.
86 *
87 * Meets the requirements of a <a href="tables.html#65">container</a>, a
88 * <a href="tables.html#66">reversible container</a>, and a
89 * <a href="tables.html#67">sequence</a>. Of the
90 * <a href="tables.html#68">optional sequence requirements</a>, only
91 * @c push_back, @c at, and @c %array access are supported.
92 */
93 template<typename _CharT, typename _Traits, typename _Alloc>
94 class basic_string
95 {
96#if __cplusplus202002L >= 202002L
97 static_assert(is_trivially_copyable_v<_CharT>
98 && is_trivially_default_constructible_v<_CharT>
99 && is_standard_layout_v<_CharT>);
100 static_assert(is_same_v<_CharT, typename _Traits::char_type>);
101 static_assert(is_same_v<_CharT, typename _Alloc::value_type>);
102 using _Char_alloc_type = _Alloc;
103#else
104 typedef typename __gnu_cxx::__alloc_traits<_Alloc>::template
105 rebind<_CharT>::other _Char_alloc_type;
106#endif
107
108 typedef __gnu_cxx::__alloc_traits<_Char_alloc_type> _Alloc_traits;
109
110 // Types:
111 public:
112 typedef _Traits traits_type;
113 typedef typename _Traits::char_type value_type;
114 typedef _Char_alloc_type allocator_type;
115 typedef typename _Alloc_traits::size_type size_type;
116 typedef typename _Alloc_traits::difference_type difference_type;
117 typedef typename _Alloc_traits::reference reference;
118 typedef typename _Alloc_traits::const_reference const_reference;
119 typedef typename _Alloc_traits::pointer pointer;
120 typedef typename _Alloc_traits::const_pointer const_pointer;
121 typedef __gnu_cxx::__normal_iterator<pointer, basic_string> iterator;
122 typedef __gnu_cxx::__normal_iterator<const_pointer, basic_string>
123 const_iterator;
124 typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
125 typedef std::reverse_iterator<iterator> reverse_iterator;
126
127 /// Value returned by various member functions when they fail.
128 static const size_type npos = static_cast<size_type>(-1);
129
130 protected:
131 // type used for positions in insert, erase etc.
132#if __cplusplus202002L < 201103L
133 typedef iterator __const_iterator;
134#else
135 typedef const_iterator __const_iterator;
136#endif
137
138 private:
139 static _GLIBCXX20_CONSTEXPRconstexpr pointer
140 _S_allocate(_Char_alloc_type& __a, size_type __n)
141 {
142 pointer __p = _Alloc_traits::allocate(__a, __n);
143#if __glibcxx_constexpr_string201907L >= 201907L
144 // std::char_traits begins the lifetime of characters,
145 // but custom traits might not, so do it here.
146 if constexpr (!is_same_v<_Traits, char_traits<_CharT>>)
147 if (std::__is_constant_evaluated())
148 // Begin the lifetime of characters in allocated storage.
149 for (size_type __i = 0; __i < __n; ++__i)
150 std::construct_at(__builtin_addressof(__p[__i]));
151#endif
152 return __p;
153 }
154
155#ifdef __glibcxx_string_view201803L // >= C++17
156 // A helper type for avoiding boiler-plate.
157 typedef basic_string_view<_CharT, _Traits> __sv_type;
158
159 template<typename _Tp, typename _Res>
160 using _If_sv = enable_if_t<
161 __and_<is_convertible<const _Tp&, __sv_type>,
162 __not_<is_convertible<const _Tp*, const basic_string*>>,
163 __not_<is_convertible<const _Tp&, const _CharT*>>>::value,
164 _Res>;
165
166 // Allows an implicit conversion to __sv_type.
167 _GLIBCXX20_CONSTEXPRconstexpr
168 static __sv_type
169 _S_to_string_view(__sv_type __svt) noexcept
170 { return __svt; }
171
172 // Wraps a string_view by explicit conversion and thus
173 // allows to add an internal constructor that does not
174 // participate in overload resolution when a string_view
175 // is provided.
176 struct __sv_wrapper
177 {
178 _GLIBCXX20_CONSTEXPRconstexpr explicit
179 __sv_wrapper(__sv_type __sv) noexcept : _M_sv(__sv) { }
180
181 __sv_type _M_sv;
182 };
183
184 /**
185 * @brief Only internally used: Construct string from a string view
186 * wrapper.
187 * @param __svw string view wrapper.
188 * @param __a Allocator to use.
189 */
190 _GLIBCXX20_CONSTEXPRconstexpr
191 explicit
192 basic_string(__sv_wrapper __svw, const _Alloc& __a)
193 : basic_string(__svw._M_sv.data(), __svw._M_sv.size(), __a) { }
194#endif
195
196 // Use empty-base optimization: http://www.cantrip.org/emptyopt.html
197 struct _Alloc_hider : allocator_type // TODO check __is_final
198 {
199#if __cplusplus202002L < 201103L
200 _Alloc_hider(pointer __dat, const _Alloc& __a = _Alloc())
201 : allocator_type(__a), _M_p(__dat) { }
202#else
203 _GLIBCXX20_CONSTEXPRconstexpr
204 _Alloc_hider(pointer __dat, const _Alloc& __a)
205 : allocator_type(__a), _M_p(__dat) { }
206
207 _GLIBCXX20_CONSTEXPRconstexpr
208 _Alloc_hider(pointer __dat, _Alloc&& __a = _Alloc())
209 : allocator_type(std::move(__a)), _M_p(__dat) { }
210#endif
211
212 pointer _M_p; // The actual data.
213 };
214
215 _Alloc_hider _M_dataplus;
216 size_type _M_string_length;
217
218 enum { _S_local_capacity = 15 / sizeof(_CharT) };
219
220 union
221 {
222 _CharT _M_local_buf[_S_local_capacity + 1];
223 size_type _M_allocated_capacity;
224 };
225
226 _GLIBCXX20_CONSTEXPRconstexpr
227 void
228 _M_data(pointer __p)
229 { _M_dataplus._M_p = __p; }
230
231 _GLIBCXX20_CONSTEXPRconstexpr
232 void
233 _M_length(size_type __length)
234 { _M_string_length = __length; }
235
236 _GLIBCXX20_CONSTEXPRconstexpr
237 pointer
238 _M_data() const
239 { return _M_dataplus._M_p; }
240
241 _GLIBCXX20_CONSTEXPRconstexpr
242 pointer
243 _M_local_data()
244 {
245#if __cplusplus202002L >= 201103L
246 return std::pointer_traits<pointer>::pointer_to(*_M_local_buf);
247#else
248 return pointer(_M_local_buf);
249#endif
250 }
251
252 _GLIBCXX20_CONSTEXPRconstexpr
253 const_pointer
254 _M_local_data() const
255 {
256#if __cplusplus202002L >= 201103L
257 return std::pointer_traits<const_pointer>::pointer_to(*_M_local_buf);
258#else
259 return const_pointer(_M_local_buf);
260#endif
261 }
262
263 _GLIBCXX20_CONSTEXPRconstexpr
264 void
265 _M_capacity(size_type __capacity)
266 { _M_allocated_capacity = __capacity; }
267
268 _GLIBCXX20_CONSTEXPRconstexpr
269 void
270 _M_set_length(size_type __n)
271 {
272 _M_length(__n);
273 traits_type::assign(_M_data()[__n], _CharT());
274 }
275
276 _GLIBCXX20_CONSTEXPRconstexpr
277 bool
278 _M_is_local() const
279 {
280 if (_M_data() == _M_local_data())
281 {
282 if (_M_string_length > _S_local_capacity)
283 __builtin_unreachable();
284 return true;
285 }
286 return false;
287 }
288
289 // Create & Destroy
290 _GLIBCXX20_CONSTEXPRconstexpr
291 pointer
292 _M_create(size_type&, size_type);
293
294 _GLIBCXX20_CONSTEXPRconstexpr
295 void
296 _M_dispose()
297 {
298 if (!_M_is_local())
299 _M_destroy(_M_allocated_capacity);
300 }
301
302 _GLIBCXX20_CONSTEXPRconstexpr
303 void
304 _M_destroy(size_type __size) throw()
305 { _Alloc_traits::deallocate(_M_get_allocator(), _M_data(), __size + 1); }
306
307#if __cplusplus202002L < 201103L || defined _GLIBCXX_DEFINING_STRING_INSTANTIATIONS
308 // _M_construct_aux is used to implement the 21.3.1 para 15 which
309 // requires special behaviour if _InIterator is an integral type
310 template<typename _InIterator>
311 void
312 _M_construct_aux(_InIterator __beg, _InIterator __end,
313 std::__false_type)
314 {
315 typedef typename iterator_traits<_InIterator>::iterator_category _Tag;
316 _M_construct(__beg, __end, _Tag());
317 }
318
319 // _GLIBCXX_RESOLVE_LIB_DEFECTS
320 // 438. Ambiguity in the "do the right thing" clause
321 template<typename _Integer>
322 void
323 _M_construct_aux(_Integer __beg, _Integer __end, std::__true_type)
324 { _M_construct_aux_2(static_cast<size_type>(__beg), __end); }
325
326 void
327 _M_construct_aux_2(size_type __req, _CharT __c)
328 { _M_construct(__req, __c); }
329#endif
330
331 // For Input Iterators, used in istreambuf_iterators, etc.
332 template<typename _InIterator>
333 _GLIBCXX20_CONSTEXPRconstexpr
334 void
335 _M_construct(_InIterator __beg, _InIterator __end,
336 std::input_iterator_tag);
337
338 // For forward_iterators up to random_access_iterators, used for
339 // string::iterator, _CharT*, etc.
340 template<typename _FwdIterator>
341 _GLIBCXX20_CONSTEXPRconstexpr
342 void
343 _M_construct(_FwdIterator __beg, _FwdIterator __end,
344 std::forward_iterator_tag);
345
346 _GLIBCXX20_CONSTEXPRconstexpr
347 void
348 _M_construct(size_type __req, _CharT __c);
349
350 // Construct using block of memory of known size.
351 // If _Terminated is true assume that source is already 0 terminated.
352 template<bool _Terminated>
353 _GLIBCXX20_CONSTEXPRconstexpr
354 void
355 _M_construct(const _CharT *__c, size_type __n);
356
357 _GLIBCXX20_CONSTEXPRconstexpr
358 allocator_type&
359 _M_get_allocator()
360 { return _M_dataplus; }
361
362 _GLIBCXX20_CONSTEXPRconstexpr
363 const allocator_type&
364 _M_get_allocator() const
365 { return _M_dataplus; }
366
367 // Ensure that _M_local_buf is the active member of the union.
368 __attribute__((__always_inline__))
369 _GLIBCXX14_CONSTEXPRconstexpr
370 void
371 _M_init_local_buf() _GLIBCXX_NOEXCEPTnoexcept
372 {
373#if __glibcxx_is_constant_evaluated201811L
374 if (std::is_constant_evaluated())
375 for (size_type __i = 0; __i <= _S_local_capacity; ++__i)
376 _M_local_buf[__i] = _CharT();
377#endif
378 }
379
380 __attribute__((__always_inline__))
381 _GLIBCXX14_CONSTEXPRconstexpr
382 pointer
383 _M_use_local_data() _GLIBCXX_NOEXCEPTnoexcept
384 {
385#if __cpp_lib_is_constant_evaluated201811L
386 _M_init_local_buf();
387#endif
388 return _M_local_data();
389 }
390
391 private:
392
393#ifdef _GLIBCXX_DISAMBIGUATE_REPLACE_INST
394 // The explicit instantiations in misc-inst.cc require this due to
395 // https://gcc.gnu.org/bugzilla/show_bug.cgi?id=64063
396 template<typename _Tp, bool _Requires =
397 !__are_same<_Tp, _CharT*>::__value
398 && !__are_same<_Tp, const _CharT*>::__value
399 && !__are_same<_Tp, iterator>::__value
400 && !__are_same<_Tp, const_iterator>::__value>
401 struct __enable_if_not_native_iterator
402 { typedef basic_string& __type; };
403 template<typename _Tp>
404 struct __enable_if_not_native_iterator<_Tp, false> { };
405#endif
406
407 _GLIBCXX20_CONSTEXPRconstexpr
408 size_type
409 _M_check(size_type __pos, const char* __s) const
410 {
411 if (__pos > this->size())
412 __throw_out_of_range_fmt(__N("%s: __pos (which is %zu) > "("%s: __pos (which is %zu) > " "this->size() (which is %zu)"
)
413 "this->size() (which is %zu)")("%s: __pos (which is %zu) > " "this->size() (which is %zu)"
),
414 __s, __pos, this->size());
415 return __pos;
416 }
417
418 _GLIBCXX20_CONSTEXPRconstexpr
419 void
420 _M_check_length(size_type __n1, size_type __n2, const char* __s) const
421 {
422 if (this->max_size() - (this->size() - __n1) < __n2)
423 __throw_length_error(__N(__s)(__s));
424 }
425
426
427 // NB: _M_limit doesn't check for a bad __pos value.
428 _GLIBCXX20_CONSTEXPRconstexpr
429 size_type
430 _M_limit(size_type __pos, size_type __off) const _GLIBCXX_NOEXCEPTnoexcept
431 {
432 const bool __testoff = __off < this->size() - __pos;
433 return __testoff ? __off : this->size() - __pos;
434 }
435
436 // True if _Rep and source do not overlap.
437 bool
438 _M_disjunct(const _CharT* __s) const _GLIBCXX_NOEXCEPTnoexcept
439 {
440 return (less<const _CharT*>()(__s, _M_data())
441 || less<const _CharT*>()(_M_data() + this->size(), __s));
442 }
443
444 // When __n = 1 way faster than the general multichar
445 // traits_type::copy/move/assign.
446 _GLIBCXX20_CONSTEXPRconstexpr
447 static void
448 _S_copy(_CharT* __d, const _CharT* __s, size_type __n)
449 {
450 if (__n == 1)
451 traits_type::assign(*__d, *__s);
452 else
453 traits_type::copy(__d, __s, __n);
454 }
455
456 _GLIBCXX20_CONSTEXPRconstexpr
457 static void
458 _S_move(_CharT* __d, const _CharT* __s, size_type __n)
459 {
460 if (__n == 1)
461 traits_type::assign(*__d, *__s);
462 else
463 traits_type::move(__d, __s, __n);
464 }
465
466 _GLIBCXX20_CONSTEXPRconstexpr
467 static void
468 _S_assign(_CharT* __d, size_type __n, _CharT __c)
469 {
470 if (__n == 1)
471 traits_type::assign(*__d, __c);
472 else
473 traits_type::assign(__d, __n, __c);
474 }
475
476#pragma GCC diagnostic push
477#pragma GCC diagnostic ignored "-Wc++17-extensions"
478 // _S_copy_chars is a separate template to permit specialization
479 // to optimize for the common case of pointers as iterators.
480 template<class _Iterator>
481 _GLIBCXX20_CONSTEXPRconstexpr
482 static void
483 _S_copy_chars(_CharT* __p, _Iterator __k1, _Iterator __k2)
484 {
485#if __cplusplus202002L >= 201103L
486 using _IterBase = decltype(std::__niter_base(__k1));
487 if constexpr (__or_<is_same<_IterBase, _CharT*>,
488 is_same<_IterBase, const _CharT*>>::value)
489 _S_copy(__p, std::__niter_base(__k1), __k2 - __k1);
490#if __cpp_lib_concepts202002L
491 else if constexpr (requires {
492 requires contiguous_iterator<_Iterator>;
493 { std::to_address(__k1) }
494 -> convertible_to<const _CharT*>;
495 })
496 {
497 const auto __d = __k2 - __k1;
498 (void) (__k1 + __d); // See P3349R1
499 _S_copy(__p, std::to_address(__k1), static_cast<size_type>(__d));
500 }
501#endif
502 else
503#endif
504 for (; __k1 != __k2; ++__k1, (void)++__p)
505 traits_type::assign(*__p, static_cast<_CharT>(*__k1));
506 }
507#pragma GCC diagnostic pop
508
509#if __cplusplus202002L < 201103L || defined _GLIBCXX_DEFINING_STRING_INSTANTIATIONS
510 static void
511 _S_copy_chars(_CharT* __p, iterator __k1, iterator __k2)
512 { _S_copy_chars(__p, __k1.base(), __k2.base()); }
513
514 static void
515 _S_copy_chars(_CharT* __p, const_iterator __k1, const_iterator __k2)
516 { _S_copy_chars(__p, __k1.base(), __k2.base()); }
517
518 static void
519 _S_copy_chars(_CharT* __p, _CharT* __k1, _CharT* __k2)
520 { _S_copy(__p, __k1, __k2 - __k1); }
521
522 static void
523 _S_copy_chars(_CharT* __p, const _CharT* __k1, const _CharT* __k2)
524 { _S_copy(__p, __k1, __k2 - __k1); }
525#endif
526
527#if __glibcxx_containers_ranges // C++ >= 23
528 // pre: __n == ranges::distance(__rg). __p+[0,__n) is a valid range.
529 template<typename _Rg>
530 static constexpr void
531 _S_copy_range(pointer __p, _Rg&& __rg, size_type __n)
532 {
533 if constexpr (requires {
534 requires ranges::contiguous_range<_Rg>;
535 { ranges::data(std::forward<_Rg>(__rg)) }
536 -> convertible_to<const _CharT*>;
537 })
538 _S_copy(__p, ranges::data(std::forward<_Rg>(__rg)), __n);
539 else
540 {
541 auto __first = ranges::begin(__rg);
542 const auto __last = ranges::end(__rg);
543 for (; __first != __last; ++__first)
544 traits_type::assign(*__p++, static_cast<_CharT>(*__first));
545 }
546 }
547#endif
548
549 _GLIBCXX20_CONSTEXPRconstexpr
550 static int
551 _S_compare(size_type __n1, size_type __n2) _GLIBCXX_NOEXCEPTnoexcept
552 {
553 const difference_type __d = difference_type(__n1 - __n2);
554
555 if (__d > __gnu_cxx::__numeric_traits<int>::__max)
556 return __gnu_cxx::__numeric_traits<int>::__max;
557 else if (__d < __gnu_cxx::__numeric_traits<int>::__min)
558 return __gnu_cxx::__numeric_traits<int>::__min;
559 else
560 return int(__d);
561 }
562
563 _GLIBCXX20_CONSTEXPRconstexpr
564 void
565 _M_assign(const basic_string&);
566
567 _GLIBCXX20_CONSTEXPRconstexpr
568 void
569 _M_mutate(size_type __pos, size_type __len1, const _CharT* __s,
570 size_type __len2);
571
572 _GLIBCXX20_CONSTEXPRconstexpr
573 void
574 _M_erase(size_type __pos, size_type __n);
575
576 public:
577 // Construct/copy/destroy:
578 // NB: We overload ctors in some cases instead of using default
579 // arguments, per 17.4.4.4 para. 2 item 2.
580
581 /**
582 * @brief Default constructor creates an empty string.
583 */
584 _GLIBCXX20_CONSTEXPRconstexpr
585 basic_string()
586 _GLIBCXX_NOEXCEPT_IF(is_nothrow_default_constructible<_Alloc>::value)noexcept(is_nothrow_default_constructible<_Alloc>::value
)
587#if __cpp_concepts202002 && __glibcxx_type_trait_variable_templates201510L
588 requires is_default_constructible_v<_Alloc>
589#endif
590 : _M_dataplus(_M_local_data())
591 {
592 _M_init_local_buf();
593 _M_set_length(0);
594 }
595
596 /**
597 * @brief Construct an empty string using allocator @a a.
598 */
599 _GLIBCXX20_CONSTEXPRconstexpr
600 explicit
601 basic_string(const _Alloc& __a) _GLIBCXX_NOEXCEPTnoexcept
602 : _M_dataplus(_M_local_data(), __a)
603 {
604 _M_init_local_buf();
605 _M_set_length(0);
606 }
607
608 /**
609 * @brief Construct string with copy of value of @a __str.
610 * @param __str Source string.
611 */
612 _GLIBCXX20_CONSTEXPRconstexpr
613 basic_string(const basic_string& __str)
614 : _M_dataplus(_M_local_data(),
615 _Alloc_traits::_S_select_on_copy(__str._M_get_allocator()))
616 {
617 _M_construct<true>(__str._M_data(), __str.length());
618 }
619
620 // _GLIBCXX_RESOLVE_LIB_DEFECTS
621 // 2583. no way to supply an allocator for basic_string(str, pos)
622 /**
623 * @brief Construct string as copy of a substring.
624 * @param __str Source string.
625 * @param __pos Index of first character to copy from.
626 * @param __a Allocator to use.
627 */
628 _GLIBCXX20_CONSTEXPRconstexpr
629 basic_string(const basic_string& __str, size_type __pos,
630 const _Alloc& __a = _Alloc())
631 : _M_dataplus(_M_local_data(), __a)
632 {
633 const _CharT* __start = __str._M_data()
634 + __str._M_check(__pos, "basic_string::basic_string");
635 _M_construct(__start, __start + __str._M_limit(__pos, npos),
636 std::forward_iterator_tag());
637 }
638
639 /**
640 * @brief Construct string as copy of a substring.
641 * @param __str Source string.
642 * @param __pos Index of first character to copy from.
643 * @param __n Number of characters to copy.
644 */
645 _GLIBCXX20_CONSTEXPRconstexpr
646 basic_string(const basic_string& __str, size_type __pos,
647 size_type __n)
648 : _M_dataplus(_M_local_data())
649 {
650 const _CharT* __start = __str._M_data()
651 + __str._M_check(__pos, "basic_string::basic_string");
652 _M_construct(__start, __start + __str._M_limit(__pos, __n),
653 std::forward_iterator_tag());
654 }
655
656 /**
657 * @brief Construct string as copy of a substring.
658 * @param __str Source string.
659 * @param __pos Index of first character to copy from.
660 * @param __n Number of characters to copy.
661 * @param __a Allocator to use.
662 */
663 _GLIBCXX20_CONSTEXPRconstexpr
664 basic_string(const basic_string& __str, size_type __pos,
665 size_type __n, const _Alloc& __a)
666 : _M_dataplus(_M_local_data(), __a)
667 {
668 const _CharT* __start
669 = __str._M_data() + __str._M_check(__pos, "string::string");
670 _M_construct(__start, __start + __str._M_limit(__pos, __n),
671 std::forward_iterator_tag());
672 }
673
674 /**
675 * @brief Construct string initialized by a character %array.
676 * @param __s Source character %array.
677 * @param __n Number of characters to copy.
678 * @param __a Allocator to use (default is default allocator).
679 *
680 * NB: @a __s must have at least @a __n characters, &apos;\\0&apos;
681 * has no special meaning.
682 */
683 _GLIBCXX20_CONSTEXPRconstexpr
684 basic_string(const _CharT* __s, size_type __n,
685 const _Alloc& __a = _Alloc())
686 : _M_dataplus(_M_local_data(), __a)
687 {
688 // NB: Not required, but considered best practice.
689 if (__s == 0 && __n > 0)
690 std::__throw_logic_error(__N("basic_string: "("basic_string: " "construction from null is not valid")
691 "construction from null is not valid")("basic_string: " "construction from null is not valid"));
692 _M_construct(__s, __s + __n, std::forward_iterator_tag());
693 }
694
695 /**
696 * @brief Construct string as copy of a C string.
697 * @param __s Source C string.
698 * @param __a Allocator to use (default is default allocator).
699 */
700#if __cpp_deduction_guides201703L && ! defined _GLIBCXX_DEFINING_STRING_INSTANTIATIONS
701 // _GLIBCXX_RESOLVE_LIB_DEFECTS
702 // 3076. basic_string CTAD ambiguity
703 template<typename = _RequireAllocator<_Alloc>>
704#endif
705 _GLIBCXX20_CONSTEXPRconstexpr
706 basic_string(const _CharT* __s, const _Alloc& __a = _Alloc())
707 : _M_dataplus(_M_local_data(), __a)
708 {
709 // NB: Not required, but considered best practice.
710 if (__s == 0)
711 std::__throw_logic_error(__N("basic_string: "("basic_string: " "construction from null is not valid")
712 "construction from null is not valid")("basic_string: " "construction from null is not valid"));
713 const _CharT* __end = __s + traits_type::length(__s);
714 _M_construct(__s, __end, forward_iterator_tag());
715 }
716
717 /**
718 * @brief Construct string as multiple characters.
719 * @param __n Number of characters.
720 * @param __c Character to use.
721 * @param __a Allocator to use (default is default allocator).
722 */
723#if __cpp_deduction_guides201703L && ! defined _GLIBCXX_DEFINING_STRING_INSTANTIATIONS
724 // _GLIBCXX_RESOLVE_LIB_DEFECTS
725 // 3076. basic_string CTAD ambiguity
726 template<typename = _RequireAllocator<_Alloc>>
727#endif
728 _GLIBCXX20_CONSTEXPRconstexpr
729 basic_string(size_type __n, _CharT __c, const _Alloc& __a = _Alloc())
730 : _M_dataplus(_M_local_data(), __a)
731 { _M_construct(__n, __c); }
732
733#if __cplusplus202002L >= 201103L
734 /**
735 * @brief Move construct string.
736 * @param __str Source string.
737 *
738 * The newly-created string contains the exact contents of @a __str.
739 * @a __str is a valid, but unspecified string.
740 */
741 _GLIBCXX20_CONSTEXPRconstexpr
742 basic_string(basic_string&& __str) noexcept
743 : _M_dataplus(_M_local_data(), std::move(__str._M_get_allocator()))
744 {
745 if (__str._M_is_local())
746 {
747 _M_init_local_buf();
748 traits_type::copy(_M_local_buf, __str._M_local_buf,
749 __str.length() + 1);
750 }
751 else
752 {
753 _M_data(__str._M_data());
754 _M_capacity(__str._M_allocated_capacity);
755 }
756
757 // Must use _M_length() here not _M_set_length() because
758 // basic_stringbuf relies on writing into unallocated capacity so
759 // we mess up the contents if we put a '\0' in the string.
760 _M_length(__str.length());
761 __str._M_data(__str._M_use_local_data());
762 __str._M_set_length(0);
763 }
764
765#if __glibcxx_containers_ranges // C++ >= 23
766 /**
767 * @brief Construct a string from a range.
768 * @since C++23
769 */
770 template<__detail::__container_compatible_range<_CharT> _Rg>
771 constexpr
772 basic_string(from_range_t, _Rg&& __rg, const _Alloc& __a = _Alloc())
773 : basic_string(__a)
774 {
775 if constexpr (ranges::forward_range<_Rg> || ranges::sized_range<_Rg>)
776 {
777 const auto __n = static_cast<size_type>(ranges::distance(__rg));
778 reserve(__n);
779 _S_copy_range(_M_data(), std::forward<_Rg>(__rg), __n);
780 _M_set_length(__n);
781 }
782 else
783 {
784 auto __first = ranges::begin(__rg);
785 const auto __last = ranges::end(__rg);
786 for (; __first != __last; ++__first)
787 push_back(*__first);
788 }
789 }
790#endif
791
792 /**
793 * @brief Construct string from an initializer %list.
794 * @param __l std::initializer_list of characters.
795 * @param __a Allocator to use (default is default allocator).
796 */
797 _GLIBCXX20_CONSTEXPRconstexpr
798 basic_string(initializer_list<_CharT> __l, const _Alloc& __a = _Alloc())
799 : _M_dataplus(_M_local_data(), __a)
800 { _M_construct(__l.begin(), __l.end(), std::forward_iterator_tag()); }
801
802 _GLIBCXX20_CONSTEXPRconstexpr
803 basic_string(const basic_string& __str, const _Alloc& __a)
804 : _M_dataplus(_M_local_data(), __a)
805 { _M_construct(__str.begin(), __str.end(), std::forward_iterator_tag()); }
806
807 _GLIBCXX20_CONSTEXPRconstexpr
808 basic_string(basic_string&& __str, const _Alloc& __a)
809 noexcept(_Alloc_traits::_S_always_equal())
810 : _M_dataplus(_M_local_data(), __a)
811 {
812 if (__str._M_is_local())
813 {
814 _M_init_local_buf();
815 traits_type::copy(_M_local_buf, __str._M_local_buf,
816 __str.length() + 1);
817 _M_length(__str.length());
818 __str._M_set_length(0);
819 }
820 else if (_Alloc_traits::_S_always_equal()
821 || __str.get_allocator() == __a)
822 {
823 _M_data(__str._M_data());
824 _M_length(__str.length());
825 _M_capacity(__str._M_allocated_capacity);
826 __str._M_data(__str._M_use_local_data());
827 __str._M_set_length(0);
828 }
829 else
830 _M_construct(__str.begin(), __str.end(), std::forward_iterator_tag());
831 }
832#endif // C++11
833
834#if __cplusplus202002L >= 202100L
835 basic_string(nullptr_t) = delete;
836 basic_string& operator=(nullptr_t) = delete;
837#endif // C++23
838
839 /**
840 * @brief Construct string as copy of a range.
841 * @param __beg Start of range.
842 * @param __end End of range.
843 * @param __a Allocator to use (default is default allocator).
844 */
845#if __cplusplus202002L >= 201103L
846 template<typename _InputIterator,
847 typename = std::_RequireInputIter<_InputIterator>>
848#else
849 template<typename _InputIterator>
850#endif
851 _GLIBCXX20_CONSTEXPRconstexpr
852 basic_string(_InputIterator __beg, _InputIterator __end,
853 const _Alloc& __a = _Alloc())
854 : _M_dataplus(_M_local_data(), __a), _M_string_length(0)
855 {
856#if __cplusplus202002L >= 201103L
857 _M_construct(__beg, __end, std::__iterator_category(__beg));
858#else
859 typedef typename std::__is_integer<_InputIterator>::__type _Integral;
860 _M_construct_aux(__beg, __end, _Integral());
861#endif
862 }
863
864#ifdef __glibcxx_string_view201803L // >= C++17
865 /**
866 * @brief Construct string from a substring of a string_view.
867 * @param __t Source object convertible to string view.
868 * @param __pos The index of the first character to copy from __t.
869 * @param __n The number of characters to copy from __t.
870 * @param __a Allocator to use.
871 */
872 template<typename _Tp,
873 typename = enable_if_t<is_convertible_v<const _Tp&, __sv_type>>>
874 _GLIBCXX20_CONSTEXPRconstexpr
875 basic_string(const _Tp& __t, size_type __pos, size_type __n,
876 const _Alloc& __a = _Alloc())
877 : basic_string(_S_to_string_view(__t).substr(__pos, __n), __a) { }
878
879 /**
880 * @brief Construct string from a string_view.
881 * @param __t Source object convertible to string view.
882 * @param __a Allocator to use (default is default allocator).
883 */
884 template<typename _Tp, typename = _If_sv<_Tp, void>>
885 _GLIBCXX20_CONSTEXPRconstexpr
886 explicit
887 basic_string(const _Tp& __t, const _Alloc& __a = _Alloc())
888 : basic_string(__sv_wrapper(_S_to_string_view(__t)), __a) { }
889#endif // C++17
890
891 /**
892 * @brief Destroy the string instance.
893 */
894 _GLIBCXX20_CONSTEXPRconstexpr
895 ~basic_string()
896 { _M_dispose(); }
897
898 /**
899 * @brief Assign the value of @a str to this string.
900 * @param __str Source string.
901 */
902 _GLIBCXX20_CONSTEXPRconstexpr
903 basic_string&
904 operator=(const basic_string& __str)
905 {
906 return this->assign(__str);
907 }
908
909 /**
910 * @brief Copy contents of @a s into this string.
911 * @param __s Source null-terminated string.
912 */
913 _GLIBCXX20_CONSTEXPRconstexpr
914 basic_string&
915 operator=(const _CharT* __s)
916 { return this->assign(__s); }
917
918 /**
919 * @brief Set value to string of length 1.
920 * @param __c Source character.
921 *
922 * Assigning to a character makes this string length 1 and
923 * (*this)[0] == @a c.
924 */
925 _GLIBCXX20_CONSTEXPRconstexpr
926 basic_string&
927 operator=(_CharT __c)
928 {
929 this->assign(1, __c);
930 return *this;
931 }
932
933#if __cplusplus202002L >= 201103L
934 /**
935 * @brief Move assign the value of @a str to this string.
936 * @param __str Source string.
937 *
938 * The contents of @a str are moved into this string (without copying).
939 * @a str is a valid, but unspecified string.
940 */
941 // _GLIBCXX_RESOLVE_LIB_DEFECTS
942 // 2063. Contradictory requirements for string move assignment
943 _GLIBCXX20_CONSTEXPRconstexpr
944 basic_string&
945 operator=(basic_string&& __str)
946 noexcept(_Alloc_traits::_S_nothrow_move())
947 {
948 const bool __equal_allocs = _Alloc_traits::_S_always_equal()
949 || _M_get_allocator() == __str._M_get_allocator();
950 if (!_M_is_local() && _Alloc_traits::_S_propagate_on_move_assign()
951 && !__equal_allocs)
952 {
953 // Destroy existing storage before replacing allocator.
954 _M_destroy(_M_allocated_capacity);
955 _M_data(_M_local_data());
956 _M_set_length(0);
957 }
958 // Replace allocator if POCMA is true.
959 std::__alloc_on_move(_M_get_allocator(), __str._M_get_allocator());
960
961 if (__str._M_is_local())
962 {
963 // We've always got room for a short string, just copy it
964 // (unless this is a self-move, because that would violate the
965 // char_traits::copy precondition that the ranges don't overlap).
966 if (__builtin_expect(std::__addressof(__str) != this, true))
967 {
968 if (__str.size())
969 this->_S_copy(_M_data(), __str._M_data(), __str.size());
970 _M_set_length(__str.size());
971 }
972 }
973 else if (_Alloc_traits::_S_propagate_on_move_assign() || __equal_allocs)
974 {
975 // Just move the allocated pointer, our allocator can free it.
976 pointer __data = nullptr;
977 size_type __capacity;
978 if (!_M_is_local())
979 {
980 if (__equal_allocs)
981 {
982 // __str can reuse our existing storage.
983 __data = _M_data();
984 __capacity = _M_allocated_capacity;
985 }
986 else // __str can't use it, so free it.
987 _M_destroy(_M_allocated_capacity);
988 }
989
990 _M_data(__str._M_data());
991 _M_length(__str.length());
992 _M_capacity(__str._M_allocated_capacity);
993 if (__data)
994 {
995 __str._M_data(__data);
996 __str._M_capacity(__capacity);
997 }
998 else
999 __str._M_data(__str._M_use_local_data());
1000 }
1001 else // Need to do a deep copy
1002 _M_assign(__str);
1003 __str.clear();
1004 return *this;
1005 }
1006
1007 /**
1008 * @brief Set value to string constructed from initializer %list.
1009 * @param __l std::initializer_list.
1010 */
1011 _GLIBCXX20_CONSTEXPRconstexpr
1012 basic_string&
1013 operator=(initializer_list<_CharT> __l)
1014 {
1015 this->assign(__l.begin(), __l.size());
1016 return *this;
1017 }
1018#endif // C++11
1019
1020#ifdef __glibcxx_string_view201803L // >= C++17
1021 /**
1022 * @brief Set value to string constructed from a string_view.
1023 * @param __svt An object convertible to string_view.
1024 */
1025 template<typename _Tp>
1026 _GLIBCXX20_CONSTEXPRconstexpr
1027 _If_sv<_Tp, basic_string&>
1028 operator=(const _Tp& __svt)
1029 { return this->assign(__svt); }
1030
1031 /**
1032 * @brief Convert to a string_view.
1033 * @return A string_view.
1034 */
1035 _GLIBCXX20_CONSTEXPRconstexpr
1036 operator __sv_type() const noexcept
1037 { return __sv_type(data(), size()); }
1038#endif // C++17
1039
1040 // Iterators:
1041 /**
1042 * Returns a read/write iterator that points to the first character in
1043 * the %string.
1044 */
1045 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1046 iterator
1047 begin() _GLIBCXX_NOEXCEPTnoexcept
1048 { return iterator(_M_data()); }
1049
1050 /**
1051 * Returns a read-only (constant) iterator that points to the first
1052 * character in the %string.
1053 */
1054 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1055 const_iterator
1056 begin() const _GLIBCXX_NOEXCEPTnoexcept
1057 { return const_iterator(_M_data()); }
1058
1059 /**
1060 * Returns a read/write iterator that points one past the last
1061 * character in the %string.
1062 */
1063 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1064 iterator
1065 end() _GLIBCXX_NOEXCEPTnoexcept
1066 { return iterator(_M_data() + this->size()); }
1067
1068 /**
1069 * Returns a read-only (constant) iterator that points one past the
1070 * last character in the %string.
1071 */
1072 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1073 const_iterator
1074 end() const _GLIBCXX_NOEXCEPTnoexcept
1075 { return const_iterator(_M_data() + this->size()); }
1076
1077 /**
1078 * Returns a read/write reverse iterator that points to the last
1079 * character in the %string. Iteration is done in reverse element
1080 * order.
1081 */
1082 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1083 reverse_iterator
1084 rbegin() _GLIBCXX_NOEXCEPTnoexcept
1085 { return reverse_iterator(this->end()); }
1086
1087 /**
1088 * Returns a read-only (constant) reverse iterator that points
1089 * to the last character in the %string. Iteration is done in
1090 * reverse element order.
1091 */
1092 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1093 const_reverse_iterator
1094 rbegin() const _GLIBCXX_NOEXCEPTnoexcept
1095 { return const_reverse_iterator(this->end()); }
1096
1097 /**
1098 * Returns a read/write reverse iterator that points to one before the
1099 * first character in the %string. Iteration is done in reverse
1100 * element order.
1101 */
1102 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1103 reverse_iterator
1104 rend() _GLIBCXX_NOEXCEPTnoexcept
1105 { return reverse_iterator(this->begin()); }
1106
1107 /**
1108 * Returns a read-only (constant) reverse iterator that points
1109 * to one before the first character in the %string. Iteration
1110 * is done in reverse element order.
1111 */
1112 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1113 const_reverse_iterator
1114 rend() const _GLIBCXX_NOEXCEPTnoexcept
1115 { return const_reverse_iterator(this->begin()); }
1116
1117#if __cplusplus202002L >= 201103L
1118 /**
1119 * Returns a read-only (constant) iterator that points to the first
1120 * character in the %string.
1121 */
1122 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1123 const_iterator
1124 cbegin() const noexcept
1125 { return const_iterator(this->_M_data()); }
1126
1127 /**
1128 * Returns a read-only (constant) iterator that points one past the
1129 * last character in the %string.
1130 */
1131 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1132 const_iterator
1133 cend() const noexcept
1134 { return const_iterator(this->_M_data() + this->size()); }
1135
1136 /**
1137 * Returns a read-only (constant) reverse iterator that points
1138 * to the last character in the %string. Iteration is done in
1139 * reverse element order.
1140 */
1141 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1142 const_reverse_iterator
1143 crbegin() const noexcept
1144 { return const_reverse_iterator(this->end()); }
1145
1146 /**
1147 * Returns a read-only (constant) reverse iterator that points
1148 * to one before the first character in the %string. Iteration
1149 * is done in reverse element order.
1150 */
1151 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1152 const_reverse_iterator
1153 crend() const noexcept
1154 { return const_reverse_iterator(this->begin()); }
1155#endif
1156
1157 public:
1158 // Capacity:
1159 /// Returns the number of characters in the string, not including any
1160 /// null-termination.
1161 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1162 size_type
1163 size() const _GLIBCXX_NOEXCEPTnoexcept
1164 {
1165 size_type __sz = _M_string_length;
1166 if (__sz > max_size ())
1167 __builtin_unreachable ();
1168 return __sz;
1169 }
1170
1171 /// Returns the number of characters in the string, not including any
1172 /// null-termination.
1173 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1174 size_type
1175 length() const _GLIBCXX_NOEXCEPTnoexcept
1176 { return size(); }
1177
1178 /// Returns the size() of the largest possible %string.
1179 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1180 size_type
1181 max_size() const _GLIBCXX_NOEXCEPTnoexcept
1182 {
1183 const size_t __diffmax
1184 = __gnu_cxx::__numeric_traits<ptrdiff_t>::__max / sizeof(_CharT);
1185 const size_t __allocmax = _Alloc_traits::max_size(_M_get_allocator());
1186 return (std::min)(__diffmax, __allocmax) - 1;
1187 }
1188
1189 /**
1190 * @brief Resizes the %string to the specified number of characters.
1191 * @param __n Number of characters the %string should contain.
1192 * @param __c Character to fill any new elements.
1193 *
1194 * This function will %resize the %string to the specified
1195 * number of characters. If the number is smaller than the
1196 * %string's current size the %string is truncated, otherwise
1197 * the %string is extended and new elements are %set to @a __c.
1198 */
1199 _GLIBCXX20_CONSTEXPRconstexpr
1200 void
1201 resize(size_type __n, _CharT __c);
1202
1203 /**
1204 * @brief Resizes the %string to the specified number of characters.
1205 * @param __n Number of characters the %string should contain.
1206 *
1207 * This function will resize the %string to the specified length. If
1208 * the new size is smaller than the %string's current size the %string
1209 * is truncated, otherwise the %string is extended and new characters
1210 * are default-constructed. For basic types such as char, this means
1211 * setting them to 0.
1212 */
1213 _GLIBCXX20_CONSTEXPRconstexpr
1214 void
1215 resize(size_type __n)
1216 { this->resize(__n, _CharT()); }
1217
1218#if __cplusplus202002L >= 201103L
1219#pragma GCC diagnostic push
1220#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
1221 /// A non-binding request to reduce capacity() to size().
1222 _GLIBCXX20_CONSTEXPRconstexpr
1223 void
1224 shrink_to_fit() noexcept
1225 { reserve(); }
1226#pragma GCC diagnostic pop
1227#endif
1228
1229#ifdef __glibcxx_string_resize_and_overwrite // C++ >= 23
1230 /** Resize the string and call a function to fill it.
1231 *
1232 * @param __n The maximum size requested.
1233 * @param __op A callable object that writes characters to the string.
1234 *
1235 * This is a low-level function that is easy to misuse, be careful.
1236 *
1237 * Calling `str.resize_and_overwrite(n, op)` will reserve at least `n`
1238 * characters in `str`, evaluate `n2 = std::move(op)(str.data(), n)`,
1239 * and finally set the string length to `n2` (adding a null terminator
1240 * at the end). The function object `op` is allowed to write to the
1241 * extra capacity added by the initial reserve operation, which is not
1242 * allowed if you just call `str.reserve(n)` yourself.
1243 *
1244 * This can be used to efficiently fill a `string` buffer without the
1245 * overhead of zero-initializing characters that will be overwritten
1246 * anyway.
1247 *
1248 * The callable `op` must not access the string directly (only through
1249 * the pointer passed as its first argument), must not write more than
1250 * `n` characters to the string, must return a value no greater than `n`,
1251 * and must ensure that all characters up to the returned length are
1252 * valid after it returns (i.e. there must be no uninitialized values
1253 * left in the string after the call, because accessing them would
1254 * have undefined behaviour). If `op` exits by throwing an exception
1255 * the behaviour is undefined.
1256 *
1257 * @since C++23
1258 */
1259 template<typename _Operation>
1260 constexpr void
1261 resize_and_overwrite(size_type __n, _Operation __op);
1262#endif
1263
1264#if __cplusplus202002L >= 201103L
1265 /// Non-standard version of resize_and_overwrite for C++11 and above.
1266 template<typename _Operation>
1267 _GLIBCXX20_CONSTEXPRconstexpr void
1268 __resize_and_overwrite(size_type __n, _Operation __op);
1269#endif
1270
1271 /**
1272 * Returns the total number of characters that the %string can hold
1273 * before needing to allocate more memory.
1274 */
1275 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1276 size_type
1277 capacity() const _GLIBCXX_NOEXCEPTnoexcept
1278 {
1279 size_t __sz = _M_is_local() ? size_type(_S_local_capacity)
1280 : _M_allocated_capacity;
1281 if (__sz < _S_local_capacity || __sz > max_size ())
1282 __builtin_unreachable ();
1283 return __sz;
1284 }
1285
1286 /**
1287 * @brief Attempt to preallocate enough memory for specified number of
1288 * characters.
1289 * @param __res_arg Number of characters required.
1290 * @throw std::length_error If @a __res_arg exceeds @c max_size().
1291 *
1292 * This function attempts to reserve enough memory for the
1293 * %string to hold the specified number of characters. If the
1294 * number requested is more than max_size(), length_error is
1295 * thrown.
1296 *
1297 * The advantage of this function is that if optimal code is a
1298 * necessity and the user can determine the string length that will be
1299 * required, the user can reserve the memory in %advance, and thus
1300 * prevent a possible reallocation of memory and copying of %string
1301 * data.
1302 */
1303 _GLIBCXX20_CONSTEXPRconstexpr
1304 void
1305 reserve(size_type __res_arg);
1306
1307 /**
1308 * Equivalent to shrink_to_fit().
1309 */
1310#if __cplusplus202002L > 201703L
1311 [[deprecated("use shrink_to_fit() instead")]]
1312#endif
1313 _GLIBCXX20_CONSTEXPRconstexpr
1314 void
1315 reserve();
1316
1317 /**
1318 * Erases the string, making it empty.
1319 */
1320 _GLIBCXX20_CONSTEXPRconstexpr
1321 void
1322 clear() _GLIBCXX_NOEXCEPTnoexcept
1323 { _M_set_length(0); }
1324
1325 /**
1326 * Returns true if the %string is empty. Equivalent to
1327 * <code>*this == ""</code>.
1328 */
1329 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1330 bool
1331 empty() const _GLIBCXX_NOEXCEPTnoexcept
1332 { return _M_string_length == 0; }
1333
1334 // Element access:
1335 /**
1336 * @brief Subscript access to the data contained in the %string.
1337 * @param __pos The index of the character to access.
1338 * @return Read-only (constant) reference to the character.
1339 *
1340 * This operator allows for easy, array-style, data access.
1341 * Note that data access with this operator is unchecked and
1342 * out_of_range lookups are not defined. (For checked lookups
1343 * see at().)
1344 */
1345 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1346 const_reference
1347 operator[] (size_type __pos) const _GLIBCXX_NOEXCEPTnoexcept
1348 {
1349 __glibcxx_assert(__pos <= size())do { if (std::__is_constant_evaluated() && !bool(__pos
<= size())) std::__glibcxx_assert_fail(); } while (false);
1350 return _M_data()[__pos];
1351 }
1352
1353 /**
1354 * @brief Subscript access to the data contained in the %string.
1355 * @param __pos The index of the character to access.
1356 * @return Read/write reference to the character.
1357 *
1358 * This operator allows for easy, array-style, data access.
1359 * Note that data access with this operator is unchecked and
1360 * out_of_range lookups are not defined. (For checked lookups
1361 * see at().)
1362 */
1363 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1364 reference
1365 operator[](size_type __pos)
1366 {
1367 // Allow pos == size() both in C++98 mode, as v3 extension,
1368 // and in C++11 mode.
1369 __glibcxx_assert(__pos <= size())do { if (std::__is_constant_evaluated() && !bool(__pos
<= size())) std::__glibcxx_assert_fail(); } while (false);
1370 // In pedantic mode be strict in C++98 mode.
1371 _GLIBCXX_DEBUG_PEDASSERT(__cplusplus >= 201103L || __pos < size());
1372 return _M_data()[__pos];
1373 }
1374
1375 /**
1376 * @brief Provides access to the data contained in the %string.
1377 * @param __n The index of the character to access.
1378 * @return Read-only (const) reference to the character.
1379 * @throw std::out_of_range If @a n is an invalid index.
1380 *
1381 * This function provides for safer data access. The parameter is
1382 * first checked that it is in the range of the string. The function
1383 * throws out_of_range if the check fails.
1384 */
1385 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1386 const_reference
1387 at(size_type __n) const
1388 {
1389 if (__n >= this->size())
1390 __throw_out_of_range_fmt(__N("basic_string::at: __n "("basic_string::at: __n " "(which is %zu) >= this->size() "
"(which is %zu)")
1391 "(which is %zu) >= this->size() "("basic_string::at: __n " "(which is %zu) >= this->size() "
"(which is %zu)")
1392 "(which is %zu)")("basic_string::at: __n " "(which is %zu) >= this->size() "
"(which is %zu)"),
1393 __n, this->size());
1394 return _M_data()[__n];
1395 }
1396
1397 /**
1398 * @brief Provides access to the data contained in the %string.
1399 * @param __n The index of the character to access.
1400 * @return Read/write reference to the character.
1401 * @throw std::out_of_range If @a n is an invalid index.
1402 *
1403 * This function provides for safer data access. The parameter is
1404 * first checked that it is in the range of the string. The function
1405 * throws out_of_range if the check fails.
1406 */
1407 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1408 reference
1409 at(size_type __n)
1410 {
1411 if (__n >= size())
1412 __throw_out_of_range_fmt(__N("basic_string::at: __n "("basic_string::at: __n " "(which is %zu) >= this->size() "
"(which is %zu)")
1413 "(which is %zu) >= this->size() "("basic_string::at: __n " "(which is %zu) >= this->size() "
"(which is %zu)")
1414 "(which is %zu)")("basic_string::at: __n " "(which is %zu) >= this->size() "
"(which is %zu)"),
1415 __n, this->size());
1416 return _M_data()[__n];
1417 }
1418
1419#if __cplusplus202002L >= 201103L
1420 /**
1421 * Returns a read/write reference to the data at the first
1422 * element of the %string.
1423 */
1424 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1425 reference
1426 front() noexcept
1427 {
1428 __glibcxx_assert(!empty())do { if (std::__is_constant_evaluated() && !bool(!empty
())) std::__glibcxx_assert_fail(); } while (false);
1429 return operator[](0);
1430 }
1431
1432 /**
1433 * Returns a read-only (constant) reference to the data at the first
1434 * element of the %string.
1435 */
1436 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1437 const_reference
1438 front() const noexcept
1439 {
1440 __glibcxx_assert(!empty())do { if (std::__is_constant_evaluated() && !bool(!empty
())) std::__glibcxx_assert_fail(); } while (false);
1441 return operator[](0);
1442 }
1443
1444 /**
1445 * Returns a read/write reference to the data at the last
1446 * element of the %string.
1447 */
1448 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1449 reference
1450 back() noexcept
1451 {
1452 __glibcxx_assert(!empty())do { if (std::__is_constant_evaluated() && !bool(!empty
())) std::__glibcxx_assert_fail(); } while (false);
1453 return operator[](this->size() - 1);
1454 }
1455
1456 /**
1457 * Returns a read-only (constant) reference to the data at the
1458 * last element of the %string.
1459 */
1460 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
1461 const_reference
1462 back() const noexcept
1463 {
1464 __glibcxx_assert(!empty())do { if (std::__is_constant_evaluated() && !bool(!empty
())) std::__glibcxx_assert_fail(); } while (false);
1465 return operator[](this->size() - 1);
1466 }
1467#endif
1468
1469 // Modifiers:
1470 /**
1471 * @brief Append a string to this string.
1472 * @param __str The string to append.
1473 * @return Reference to this string.
1474 */
1475 _GLIBCXX20_CONSTEXPRconstexpr
1476 basic_string&
1477 operator+=(const basic_string& __str)
1478 { return this->append(__str); }
1479
1480 /**
1481 * @brief Append a C string.
1482 * @param __s The C string to append.
1483 * @return Reference to this string.
1484 */
1485 _GLIBCXX20_CONSTEXPRconstexpr
1486 basic_string&
1487 operator+=(const _CharT* __s)
1488 { return this->append(__s); }
1489
1490 /**
1491 * @brief Append a character.
1492 * @param __c The character to append.
1493 * @return Reference to this string.
1494 */
1495 _GLIBCXX20_CONSTEXPRconstexpr
1496 basic_string&
1497 operator+=(_CharT __c)
1498 {
1499 this->push_back(__c);
1500 return *this;
1501 }
1502
1503#if __cplusplus202002L >= 201103L
1504 /**
1505 * @brief Append an initializer_list of characters.
1506 * @param __l The initializer_list of characters to be appended.
1507 * @return Reference to this string.
1508 */
1509 _GLIBCXX20_CONSTEXPRconstexpr
1510 basic_string&
1511 operator+=(initializer_list<_CharT> __l)
1512 { return this->append(__l.begin(), __l.size()); }
1513#endif // C++11
1514
1515#ifdef __glibcxx_string_view201803L // >= C++17
1516 /**
1517 * @brief Append a string_view.
1518 * @param __svt An object convertible to string_view to be appended.
1519 * @return Reference to this string.
1520 */
1521 template<typename _Tp>
1522 _GLIBCXX20_CONSTEXPRconstexpr
1523 _If_sv<_Tp, basic_string&>
1524 operator+=(const _Tp& __svt)
1525 { return this->append(__svt); }
1526#endif // C++17
1527
1528 /**
1529 * @brief Append a string to this string.
1530 * @param __str The string to append.
1531 * @return Reference to this string.
1532 */
1533 _GLIBCXX20_CONSTEXPRconstexpr
1534 basic_string&
1535 append(const basic_string& __str)
1536 { return this->append(__str._M_data(), __str.size()); }
1537
1538 /**
1539 * @brief Append a substring.
1540 * @param __str The string to append.
1541 * @param __pos Index of the first character of str to append.
1542 * @param __n The number of characters to append.
1543 * @return Reference to this string.
1544 * @throw std::out_of_range if @a __pos is not a valid index.
1545 *
1546 * This function appends @a __n characters from @a __str
1547 * starting at @a __pos to this string. If @a __n is is larger
1548 * than the number of available characters in @a __str, the
1549 * remainder of @a __str is appended.
1550 */
1551 _GLIBCXX20_CONSTEXPRconstexpr
1552 basic_string&
1553 append(const basic_string& __str, size_type __pos, size_type __n = npos)
1554 { return this->append(__str._M_data()
1555 + __str._M_check(__pos, "basic_string::append"),
1556 __str._M_limit(__pos, __n)); }
1557
1558 /**
1559 * @brief Append a C substring.
1560 * @param __s The C string to append.
1561 * @param __n The number of characters to append.
1562 * @return Reference to this string.
1563 */
1564 _GLIBCXX20_CONSTEXPRconstexpr
1565 basic_string&
1566 append(const _CharT* __s, size_type __n)
1567 {
1568 __glibcxx_requires_string_len(__s, __n);
1569 _M_check_length(size_type(0), __n, "basic_string::append");
1570 return _M_append(__s, __n);
1571 }
1572
1573 /**
1574 * @brief Append a C string.
1575 * @param __s The C string to append.
1576 * @return Reference to this string.
1577 */
1578 _GLIBCXX20_CONSTEXPRconstexpr
1579 basic_string&
1580 append(const _CharT* __s)
1581 {
1582 __glibcxx_requires_string(__s);
1583 const size_type __n = traits_type::length(__s);
1584 _M_check_length(size_type(0), __n, "basic_string::append");
1585 return _M_append(__s, __n);
1586 }
1587
1588 /**
1589 * @brief Append multiple characters.
1590 * @param __n The number of characters to append.
1591 * @param __c The character to use.
1592 * @return Reference to this string.
1593 *
1594 * Appends __n copies of __c to this string.
1595 */
1596 _GLIBCXX20_CONSTEXPRconstexpr
1597 basic_string&
1598 append(size_type __n, _CharT __c)
1599 { return _M_replace_aux(this->size(), size_type(0), __n, __c); }
1600
1601#if __glibcxx_containers_ranges // C++ >= 23
1602 /**
1603 * @brief Append a range to the string.
1604 * @param __rg A range of values that are convertible to `value_type`.
1605 * @since C++23
1606 *
1607 * The range `__rg` is allowed to overlap with `*this`.
1608 */
1609 template<__detail::__container_compatible_range<_CharT> _Rg>
1610 constexpr basic_string&
1611 append_range(_Rg&& __rg)
1612 {
1613 // N.B. __rg may overlap with *this, so we must copy from __rg before
1614 // existing elements or iterators referring to *this are invalidated.
1615 // e.g. in s.append_range(views::concat(s, str)), rg overlaps s.
1616 if constexpr (ranges::forward_range<_Rg> || ranges::sized_range<_Rg>)
1617 {
1618 const auto __len = size_type(ranges::distance(__rg));
1619
1620 // Don't care if this addition wraps around, we check it below:
1621 const size_type __newlen = size() + __len;
1622
1623 if ((capacity() - size()) >= __len)
1624 _S_copy_range(_M_data() + size(), std::forward<_Rg>(__rg),
1625 __len);
1626 else
1627 {
1628 _M_check_length(0, __len, "basic_string::append_range");
1629 basic_string __s(_M_get_allocator());
1630 __s.reserve(__newlen);
1631 _S_copy_range(__s._M_data() + size(), std::forward<_Rg>(__rg),
1632 __len);
1633 _S_copy(__s._M_data(), _M_data(), size());
1634 if (!_M_is_local())
1635 _M_destroy(_M_allocated_capacity);
1636 _M_data(__s._M_data());
1637 _M_capacity(__s._M_allocated_capacity);
1638 __s._M_data(__s._M_local_data());
1639 __s._M_length(0);
1640 }
1641 _M_set_length(__newlen); // adds null-terminator
1642 }
1643 else
1644 {
1645 basic_string __s(from_range, std::forward<_Rg>(__rg),
1646 _M_get_allocator());
1647 append(__s);
1648 }
1649 return *this;
1650 }
1651#endif
1652
1653#if __cplusplus202002L >= 201103L
1654 /**
1655 * @brief Append an initializer_list of characters.
1656 * @param __l The initializer_list of characters to append.
1657 * @return Reference to this string.
1658 */
1659 _GLIBCXX20_CONSTEXPRconstexpr
1660 basic_string&
1661 append(initializer_list<_CharT> __l)
1662 { return this->append(__l.begin(), __l.size()); }
1663#endif // C++11
1664
1665 /**
1666 * @brief Append a range of characters.
1667 * @param __first Iterator referencing the first character to append.
1668 * @param __last Iterator marking the end of the range.
1669 * @return Reference to this string.
1670 *
1671 * Appends characters in the range [__first,__last) to this string.
1672 */
1673#if __cplusplus202002L >= 201103L
1674 template<class _InputIterator,
1675 typename = std::_RequireInputIter<_InputIterator>>
1676 _GLIBCXX20_CONSTEXPRconstexpr
1677#else
1678 template<class _InputIterator>
1679#endif
1680 basic_string&
1681 append(_InputIterator __first, _InputIterator __last)
1682 { return this->replace(end(), end(), __first, __last); }
1683
1684#ifdef __glibcxx_string_view201803L
1685 /**
1686 * @brief Append a string_view.
1687 * @param __svt An object convertible to string_view to be appended.
1688 * @return Reference to this string.
1689 */
1690 template<typename _Tp>
1691 _GLIBCXX20_CONSTEXPRconstexpr
1692 _If_sv<_Tp, basic_string&>
1693 append(const _Tp& __svt)
1694 {
1695 __sv_type __sv = __svt;
1696 return this->append(__sv.data(), __sv.size());
1697 }
1698
1699 /**
1700 * @brief Append a range of characters from a string_view.
1701 * @param __svt An object convertible to string_view to be appended from.
1702 * @param __pos The position in the string_view to append from.
1703 * @param __n The number of characters to append from the string_view.
1704 * @return Reference to this string.
1705 */
1706 template<typename _Tp>
1707 _GLIBCXX20_CONSTEXPRconstexpr
1708 _If_sv<_Tp, basic_string&>
1709 append(const _Tp& __svt, size_type __pos, size_type __n = npos)
1710 {
1711 __sv_type __sv = __svt;
1712 return _M_append(__sv.data()
1713 + std::__sv_check(__sv.size(), __pos, "basic_string::append"),
1714 std::__sv_limit(__sv.size(), __pos, __n));
1715 }
1716#endif // C++17
1717
1718 /**
1719 * @brief Append a single character.
1720 * @param __c Character to append.
1721 */
1722 _GLIBCXX20_CONSTEXPRconstexpr
1723 void
1724 push_back(_CharT __c)
1725 {
1726 const size_type __size = this->size();
1727 if (__size + 1 > this->capacity())
1728 this->_M_mutate(__size, size_type(0), 0, size_type(1));
1729 traits_type::assign(this->_M_data()[__size], __c);
1730 this->_M_set_length(__size + 1);
1731 }
1732
1733 /**
1734 * @brief Set value to contents of another string.
1735 * @param __str Source string to use.
1736 * @return Reference to this string.
1737 */
1738 _GLIBCXX20_CONSTEXPRconstexpr
1739 basic_string&
1740 assign(const basic_string& __str)
1741 {
1742#if __cplusplus202002L >= 201103L
1743 if (_Alloc_traits::_S_propagate_on_copy_assign())
1744 {
1745 if (!_Alloc_traits::_S_always_equal() && !_M_is_local()
1746 && _M_get_allocator() != __str._M_get_allocator())
1747 {
1748 // Propagating allocator cannot free existing storage so must
1749 // deallocate it before replacing current allocator.
1750 if (__str.size() <= _S_local_capacity)
1751 {
1752 _M_destroy(_M_allocated_capacity);
1753 _M_data(_M_use_local_data());
1754 _M_set_length(0);
1755 }
1756 else
1757 {
1758 const auto __len = __str.size();
1759 auto __alloc = __str._M_get_allocator();
1760 // If this allocation throws there are no effects:
1761 auto __ptr = _S_allocate(__alloc, __len + 1);
1762 _M_destroy(_M_allocated_capacity);
1763 _M_data(__ptr);
1764 _M_capacity(__len);
1765 _M_set_length(__len);
1766 }
1767 }
1768 std::__alloc_on_copy(_M_get_allocator(), __str._M_get_allocator());
1769 }
1770#endif
1771 this->_M_assign(__str);
1772 return *this;
1773 }
1774
1775#if __cplusplus202002L >= 201103L
1776 /**
1777 * @brief Set value to contents of another string.
1778 * @param __str Source string to use.
1779 * @return Reference to this string.
1780 *
1781 * This function sets this string to the exact contents of @a __str.
1782 * @a __str is a valid, but unspecified string.
1783 */
1784 _GLIBCXX20_CONSTEXPRconstexpr
1785 basic_string&
1786 assign(basic_string&& __str)
1787 noexcept(_Alloc_traits::_S_nothrow_move())
1788 {
1789 // _GLIBCXX_RESOLVE_LIB_DEFECTS
1790 // 2063. Contradictory requirements for string move assignment
1791 return *this = std::move(__str);
1792 }
1793#endif // C++11
1794
1795 /**
1796 * @brief Set value to a substring of a string.
1797 * @param __str The string to use.
1798 * @param __pos Index of the first character of str.
1799 * @param __n Number of characters to use.
1800 * @return Reference to this string.
1801 * @throw std::out_of_range if @a pos is not a valid index.
1802 *
1803 * This function sets this string to the substring of @a __str
1804 * consisting of @a __n characters at @a __pos. If @a __n is
1805 * is larger than the number of available characters in @a
1806 * __str, the remainder of @a __str is used.
1807 */
1808 _GLIBCXX20_CONSTEXPRconstexpr
1809 basic_string&
1810 assign(const basic_string& __str, size_type __pos, size_type __n = npos)
1811 { return _M_replace(size_type(0), this->size(), __str._M_data()
1812 + __str._M_check(__pos, "basic_string::assign"),
1813 __str._M_limit(__pos, __n)); }
1814
1815 /**
1816 * @brief Set value to a C substring.
1817 * @param __s The C string to use.
1818 * @param __n Number of characters to use.
1819 * @return Reference to this string.
1820 *
1821 * This function sets the value of this string to the first @a __n
1822 * characters of @a __s. If @a __n is is larger than the number of
1823 * available characters in @a __s, the remainder of @a __s is used.
1824 */
1825 _GLIBCXX20_CONSTEXPRconstexpr
1826 basic_string&
1827 assign(const _CharT* __s, size_type __n)
1828 {
1829 __glibcxx_requires_string_len(__s, __n);
1830 return _M_replace(size_type(0), this->size(), __s, __n);
1831 }
1832
1833 /**
1834 * @brief Set value to contents of a C string.
1835 * @param __s The C string to use.
1836 * @return Reference to this string.
1837 *
1838 * This function sets the value of this string to the value of @a __s.
1839 * The data is copied, so there is no dependence on @a __s once the
1840 * function returns.
1841 */
1842 _GLIBCXX20_CONSTEXPRconstexpr
1843 basic_string&
1844 assign(const _CharT* __s)
1845 {
1846 __glibcxx_requires_string(__s);
1847 return _M_replace(size_type(0), this->size(), __s,
1848 traits_type::length(__s));
1849 }
1850
1851 /**
1852 * @brief Set value to multiple characters.
1853 * @param __n Length of the resulting string.
1854 * @param __c The character to use.
1855 * @return Reference to this string.
1856 *
1857 * This function sets the value of this string to @a __n copies of
1858 * character @a __c.
1859 */
1860 _GLIBCXX20_CONSTEXPRconstexpr
1861 basic_string&
1862 assign(size_type __n, _CharT __c)
1863 { return _M_replace_aux(size_type(0), this->size(), __n, __c); }
1864
1865 /**
1866 * @brief Set value to a range of characters.
1867 * @param __first Iterator referencing the first character to append.
1868 * @param __last Iterator marking the end of the range.
1869 * @return Reference to this string.
1870 *
1871 * Sets value of string to characters in the range [__first,__last).
1872 */
1873#if __cplusplus202002L >= 201103L
1874#pragma GCC diagnostic push
1875#pragma GCC diagnostic ignored "-Wc++17-extensions"
1876 template<class _InputIterator,
1877 typename = std::_RequireInputIter<_InputIterator>>
1878 _GLIBCXX20_CONSTEXPRconstexpr
1879 basic_string&
1880 assign(_InputIterator __first, _InputIterator __last)
1881 {
1882 using _IterTraits = iterator_traits<_InputIterator>;
1883 if constexpr (is_pointer<decltype(std::__niter_base(__first))>::value
1884 && is_same<typename _IterTraits::value_type,
1885 _CharT>::value)
1886 {
1887 __glibcxx_requires_valid_range(__first, __last);
1888 return _M_replace(size_type(0), size(),
1889 std::__niter_base(__first), __last - __first);
1890 }
1891#if __cplusplus202002L >= 202002L
1892 else if constexpr (contiguous_iterator<_InputIterator>
1893 && is_same_v<iter_value_t<_InputIterator>,
1894 _CharT>)
1895 {
1896 __glibcxx_requires_valid_range(__first, __last);
1897 return _M_replace(size_type(0), size(),
1898 std::to_address(__first), __last - __first);
1899 }
1900#endif
1901 else
1902 return *this = basic_string(__first, __last, get_allocator());
1903 }
1904#pragma GCC diagnostic pop
1905#else
1906 template<class _InputIterator>
1907 basic_string&
1908 assign(_InputIterator __first, _InputIterator __last)
1909 { return this->replace(begin(), end(), __first, __last); }
1910#endif
1911
1912#if __glibcxx_containers_ranges // C++ >= 23
1913 /**
1914 * @brief Assign a range to the string.
1915 * @param __rg A range of values that are convertible to `value_type`.
1916 * @since C++23
1917 *
1918 * The range `__rg` is allowed to overlap with `*this`.
1919 */
1920 template<__detail::__container_compatible_range<_CharT> _Rg>
1921 constexpr basic_string&
1922 assign_range(_Rg&& __rg)
1923 {
1924 basic_string __s(from_range, std::forward<_Rg>(__rg),
1925 _M_get_allocator());
1926 assign(std::move(__s));
1927 return *this;
1928 }
1929#endif
1930
1931#if __cplusplus202002L >= 201103L
1932 /**
1933 * @brief Set value to an initializer_list of characters.
1934 * @param __l The initializer_list of characters to assign.
1935 * @return Reference to this string.
1936 */
1937 _GLIBCXX20_CONSTEXPRconstexpr
1938 basic_string&
1939 assign(initializer_list<_CharT> __l)
1940 {
1941 // The initializer_list array cannot alias the characters in *this
1942 // so we don't need to use replace to that case.
1943 const size_type __n = __l.size();
1944 if (__n > capacity())
1945 *this = basic_string(__l.begin(), __l.end(), get_allocator());
1946 else
1947 {
1948 if (__n)
1949 _S_copy(_M_data(), __l.begin(), __n);
1950 _M_set_length(__n);
1951 }
1952 return *this;
1953 }
1954#endif // C++11
1955
1956#ifdef __glibcxx_string_view201803L // >= C++17
1957 /**
1958 * @brief Set value from a string_view.
1959 * @param __svt The source object convertible to string_view.
1960 * @return Reference to this string.
1961 */
1962 template<typename _Tp>
1963 _GLIBCXX20_CONSTEXPRconstexpr
1964 _If_sv<_Tp, basic_string&>
1965 assign(const _Tp& __svt)
1966 {
1967 __sv_type __sv = __svt;
1968 return this->assign(__sv.data(), __sv.size());
1969 }
1970
1971 /**
1972 * @brief Set value from a range of characters in a string_view.
1973 * @param __svt The source object convertible to string_view.
1974 * @param __pos The position in the string_view to assign from.
1975 * @param __n The number of characters to assign.
1976 * @return Reference to this string.
1977 */
1978 template<typename _Tp>
1979 _GLIBCXX20_CONSTEXPRconstexpr
1980 _If_sv<_Tp, basic_string&>
1981 assign(const _Tp& __svt, size_type __pos, size_type __n = npos)
1982 {
1983 __sv_type __sv = __svt;
1984 return _M_replace(size_type(0), this->size(),
1985 __sv.data()
1986 + std::__sv_check(__sv.size(), __pos, "basic_string::assign"),
1987 std::__sv_limit(__sv.size(), __pos, __n));
1988 }
1989#endif // C++17
1990
1991#if __cplusplus202002L >= 201103L
1992 /**
1993 * @brief Insert multiple characters.
1994 * @param __p Const_iterator referencing location in string to
1995 * insert at.
1996 * @param __n Number of characters to insert
1997 * @param __c The character to insert.
1998 * @return Iterator referencing the first inserted char.
1999 * @throw std::length_error If new length exceeds @c max_size().
2000 *
2001 * Inserts @a __n copies of character @a __c starting at the
2002 * position referenced by iterator @a __p. If adding
2003 * characters causes the length to exceed max_size(),
2004 * length_error is thrown. The value of the string doesn't
2005 * change if an error is thrown.
2006 */
2007 _GLIBCXX20_CONSTEXPRconstexpr
2008 iterator
2009 insert(const_iterator __p, size_type __n, _CharT __c)
2010 {
2011 _GLIBCXX_DEBUG_PEDASSERT(__p >= begin() && __p <= end());
2012 const size_type __pos = __p - begin();
2013 this->replace(__p, __p, __n, __c);
2014 return iterator(this->_M_data() + __pos);
2015 }
2016#else
2017 /**
2018 * @brief Insert multiple characters.
2019 * @param __p Iterator referencing location in string to insert at.
2020 * @param __n Number of characters to insert
2021 * @param __c The character to insert.
2022 * @throw std::length_error If new length exceeds @c max_size().
2023 *
2024 * Inserts @a __n copies of character @a __c starting at the
2025 * position referenced by iterator @a __p. If adding
2026 * characters causes the length to exceed max_size(),
2027 * length_error is thrown. The value of the string doesn't
2028 * change if an error is thrown.
2029 */
2030 void
2031 insert(iterator __p, size_type __n, _CharT __c)
2032 { this->replace(__p, __p, __n, __c); }
2033#endif
2034
2035#if __cplusplus202002L >= 201103L
2036 /**
2037 * @brief Insert a range of characters.
2038 * @param __p Const_iterator referencing location in string to
2039 * insert at.
2040 * @param __beg Start of range.
2041 * @param __end End of range.
2042 * @return Iterator referencing the first inserted char.
2043 * @throw std::length_error If new length exceeds @c max_size().
2044 *
2045 * Inserts characters in range [beg,end). If adding characters
2046 * causes the length to exceed max_size(), length_error is
2047 * thrown. The value of the string doesn't change if an error
2048 * is thrown.
2049 */
2050 template<class _InputIterator,
2051 typename = std::_RequireInputIter<_InputIterator>>
2052 _GLIBCXX20_CONSTEXPRconstexpr
2053 iterator
2054 insert(const_iterator __p, _InputIterator __beg, _InputIterator __end)
2055 {
2056 _GLIBCXX_DEBUG_PEDASSERT(__p >= begin() && __p <= end());
2057 const size_type __pos = __p - begin();
2058 this->replace(__p, __p, __beg, __end);
2059 return iterator(this->_M_data() + __pos);
2060 }
2061#else
2062 /**
2063 * @brief Insert a range of characters.
2064 * @param __p Iterator referencing location in string to insert at.
2065 * @param __beg Start of range.
2066 * @param __end End of range.
2067 * @throw std::length_error If new length exceeds @c max_size().
2068 *
2069 * Inserts characters in range [__beg,__end). If adding
2070 * characters causes the length to exceed max_size(),
2071 * length_error is thrown. The value of the string doesn't
2072 * change if an error is thrown.
2073 */
2074 template<class _InputIterator>
2075 void
2076 insert(iterator __p, _InputIterator __beg, _InputIterator __end)
2077 { this->replace(__p, __p, __beg, __end); }
2078#endif
2079
2080#if __glibcxx_containers_ranges // C++ >= 23
2081 /**
2082 * @brief Insert a range into the string.
2083 * @param __rg A range of values that are convertible to `value_type`.
2084 * @since C++23
2085 *
2086 * The range `__rg` is allowed to overlap with `*this`.
2087 */
2088 template<__detail::__container_compatible_range<_CharT> _Rg>
2089 constexpr iterator
2090 insert_range(const_iterator __p, _Rg&& __rg)
2091 {
2092 auto __pos = __p - cbegin();
2093
2094 if constexpr (ranges::forward_range<_Rg>)
2095 if (ranges::empty(__rg))
2096 return begin() + __pos;
2097
2098
2099 if (__p == cend())
2100 append_range(std::forward<_Rg>(__rg));
2101 else
2102 {
2103 basic_string __s(from_range, std::forward<_Rg>(__rg),
2104 _M_get_allocator());
2105 insert(__pos, __s);
2106 }
2107 return begin() + __pos;
2108 }
2109#endif
2110
2111#if __cplusplus202002L >= 201103L
2112 /**
2113 * @brief Insert an initializer_list of characters.
2114 * @param __p Iterator referencing location in string to insert at.
2115 * @param __l The initializer_list of characters to insert.
2116 * @throw std::length_error If new length exceeds @c max_size().
2117 */
2118 _GLIBCXX20_CONSTEXPRconstexpr
2119 iterator
2120 insert(const_iterator __p, initializer_list<_CharT> __l)
2121 { return this->insert(__p, __l.begin(), __l.end()); }
2122
2123#ifdef _GLIBCXX_DEFINING_STRING_INSTANTIATIONS
2124 // See PR libstdc++/83328
2125 void
2126 insert(iterator __p, initializer_list<_CharT> __l)
2127 {
2128 _GLIBCXX_DEBUG_PEDASSERT(__p >= begin() && __p <= end());
2129 this->insert(__p - begin(), __l.begin(), __l.size());
2130 }
2131#endif
2132#endif // C++11
2133
2134 /**
2135 * @brief Insert value of a string.
2136 * @param __pos1 Position in string to insert at.
2137 * @param __str The string to insert.
2138 * @return Reference to this string.
2139 * @throw std::length_error If new length exceeds @c max_size().
2140 *
2141 * Inserts value of @a __str starting at @a __pos1. If adding
2142 * characters causes the length to exceed max_size(),
2143 * length_error is thrown. The value of the string doesn't
2144 * change if an error is thrown.
2145 */
2146 _GLIBCXX20_CONSTEXPRconstexpr
2147 basic_string&
2148 insert(size_type __pos1, const basic_string& __str)
2149 { return this->replace(__pos1, size_type(0),
2150 __str._M_data(), __str.size()); }
2151
2152 /**
2153 * @brief Insert a substring.
2154 * @param __pos1 Position in string to insert at.
2155 * @param __str The string to insert.
2156 * @param __pos2 Start of characters in str to insert.
2157 * @param __n Number of characters to insert.
2158 * @return Reference to this string.
2159 * @throw std::length_error If new length exceeds @c max_size().
2160 * @throw std::out_of_range If @a pos1 > size() or
2161 * @a __pos2 > @a str.size().
2162 *
2163 * Starting at @a pos1, insert @a __n character of @a __str
2164 * beginning with @a __pos2. If adding characters causes the
2165 * length to exceed max_size(), length_error is thrown. If @a
2166 * __pos1 is beyond the end of this string or @a __pos2 is
2167 * beyond the end of @a __str, out_of_range is thrown. The
2168 * value of the string doesn't change if an error is thrown.
2169 */
2170 _GLIBCXX20_CONSTEXPRconstexpr
2171 basic_string&
2172 insert(size_type __pos1, const basic_string& __str,
2173 size_type __pos2, size_type __n = npos)
2174 { return this->replace(__pos1, size_type(0), __str._M_data()
2175 + __str._M_check(__pos2, "basic_string::insert"),
2176 __str._M_limit(__pos2, __n)); }
2177
2178 /**
2179 * @brief Insert a C substring.
2180 * @param __pos Position in string to insert at.
2181 * @param __s The C string to insert.
2182 * @param __n The number of characters to insert.
2183 * @return Reference to this string.
2184 * @throw std::length_error If new length exceeds @c max_size().
2185 * @throw std::out_of_range If @a __pos is beyond the end of this
2186 * string.
2187 *
2188 * Inserts the first @a __n characters of @a __s starting at @a
2189 * __pos. If adding characters causes the length to exceed
2190 * max_size(), length_error is thrown. If @a __pos is beyond
2191 * end(), out_of_range is thrown. The value of the string
2192 * doesn't change if an error is thrown.
2193 */
2194 _GLIBCXX20_CONSTEXPRconstexpr
2195 basic_string&
2196 insert(size_type __pos, const _CharT* __s, size_type __n)
2197 { return this->replace(__pos, size_type(0), __s, __n); }
2198
2199 /**
2200 * @brief Insert a C string.
2201 * @param __pos Position in string to insert at.
2202 * @param __s The C string to insert.
2203 * @return Reference to this string.
2204 * @throw std::length_error If new length exceeds @c max_size().
2205 * @throw std::out_of_range If @a pos is beyond the end of this
2206 * string.
2207 *
2208 * Inserts the first @a n characters of @a __s starting at @a __pos. If
2209 * adding characters causes the length to exceed max_size(),
2210 * length_error is thrown. If @a __pos is beyond end(), out_of_range is
2211 * thrown. The value of the string doesn't change if an error is
2212 * thrown.
2213 */
2214 _GLIBCXX20_CONSTEXPRconstexpr
2215 basic_string&
2216 insert(size_type __pos, const _CharT* __s)
2217 {
2218 __glibcxx_requires_string(__s);
2219 return this->replace(__pos, size_type(0), __s,
2220 traits_type::length(__s));
2221 }
2222
2223 /**
2224 * @brief Insert multiple characters.
2225 * @param __pos Index in string to insert at.
2226 * @param __n Number of characters to insert
2227 * @param __c The character to insert.
2228 * @return Reference to this string.
2229 * @throw std::length_error If new length exceeds @c max_size().
2230 * @throw std::out_of_range If @a __pos is beyond the end of this
2231 * string.
2232 *
2233 * Inserts @a __n copies of character @a __c starting at index
2234 * @a __pos. If adding characters causes the length to exceed
2235 * max_size(), length_error is thrown. If @a __pos > length(),
2236 * out_of_range is thrown. The value of the string doesn't
2237 * change if an error is thrown.
2238 */
2239 _GLIBCXX20_CONSTEXPRconstexpr
2240 basic_string&
2241 insert(size_type __pos, size_type __n, _CharT __c)
2242 { return _M_replace_aux(_M_check(__pos, "basic_string::insert"),
2243 size_type(0), __n, __c); }
2244
2245 /**
2246 * @brief Insert one character.
2247 * @param __p Iterator referencing position in string to insert at.
2248 * @param __c The character to insert.
2249 * @return Iterator referencing newly inserted char.
2250 * @throw std::length_error If new length exceeds @c max_size().
2251 *
2252 * Inserts character @a __c at position referenced by @a __p.
2253 * If adding character causes the length to exceed max_size(),
2254 * length_error is thrown. If @a __p is beyond end of string,
2255 * out_of_range is thrown. The value of the string doesn't
2256 * change if an error is thrown.
2257 */
2258 _GLIBCXX20_CONSTEXPRconstexpr
2259 iterator
2260 insert(__const_iterator __p, _CharT __c)
2261 {
2262 _GLIBCXX_DEBUG_PEDASSERT(__p >= begin() && __p <= end());
2263 const size_type __pos = __p - begin();
2264 _M_replace_aux(__pos, size_type(0), size_type(1), __c);
2265 return iterator(_M_data() + __pos);
2266 }
2267
2268#ifdef __glibcxx_string_view201803L // >= C++17
2269 /**
2270 * @brief Insert a string_view.
2271 * @param __pos Position in string to insert at.
2272 * @param __svt The object convertible to string_view to insert.
2273 * @return Reference to this string.
2274 */
2275 template<typename _Tp>
2276 _GLIBCXX20_CONSTEXPRconstexpr
2277 _If_sv<_Tp, basic_string&>
2278 insert(size_type __pos, const _Tp& __svt)
2279 {
2280 __sv_type __sv = __svt;
2281 return this->insert(__pos, __sv.data(), __sv.size());
2282 }
2283
2284 /**
2285 * @brief Insert a string_view.
2286 * @param __pos1 Position in string to insert at.
2287 * @param __svt The object convertible to string_view to insert from.
2288 * @param __pos2 Start of characters in str to insert.
2289 * @param __n The number of characters to insert.
2290 * @return Reference to this string.
2291 */
2292 template<typename _Tp>
2293 _GLIBCXX20_CONSTEXPRconstexpr
2294 _If_sv<_Tp, basic_string&>
2295 insert(size_type __pos1, const _Tp& __svt,
2296 size_type __pos2, size_type __n = npos)
2297 {
2298 __sv_type __sv = __svt;
2299 return this->replace(__pos1, size_type(0),
2300 __sv.data()
2301 + std::__sv_check(__sv.size(), __pos2, "basic_string::insert"),
2302 std::__sv_limit(__sv.size(), __pos2, __n));
2303 }
2304#endif // C++17
2305
2306 /**
2307 * @brief Remove characters.
2308 * @param __pos Index of first character to remove (default 0).
2309 * @param __n Number of characters to remove (default remainder).
2310 * @return Reference to this string.
2311 * @throw std::out_of_range If @a pos is beyond the end of this
2312 * string.
2313 *
2314 * Removes @a __n characters from this string starting at @a
2315 * __pos. The length of the string is reduced by @a __n. If
2316 * there are < @a __n characters to remove, the remainder of
2317 * the string is truncated. If @a __p is beyond end of string,
2318 * out_of_range is thrown. The value of the string doesn't
2319 * change if an error is thrown.
2320 */
2321 _GLIBCXX20_CONSTEXPRconstexpr
2322 basic_string&
2323 erase(size_type __pos = 0, size_type __n = npos)
2324 {
2325 _M_check(__pos, "basic_string::erase");
2326 if (__n == npos)
2327 this->_M_set_length(__pos);
2328 else if (__n != 0)
2329 this->_M_erase(__pos, _M_limit(__pos, __n));
2330 return *this;
2331 }
2332
2333 /**
2334 * @brief Remove one character.
2335 * @param __position Iterator referencing the character to remove.
2336 * @return iterator referencing same location after removal.
2337 *
2338 * Removes the character at @a __position from this string. The value
2339 * of the string doesn't change if an error is thrown.
2340 */
2341 _GLIBCXX20_CONSTEXPRconstexpr
2342 iterator
2343 erase(__const_iterator __position)
2344 {
2345 _GLIBCXX_DEBUG_PEDASSERT(__position >= begin()
2346 && __position < end());
2347 const size_type __pos = __position - begin();
2348 this->_M_erase(__pos, size_type(1));
2349 return iterator(_M_data() + __pos);
2350 }
2351
2352 /**
2353 * @brief Remove a range of characters.
2354 * @param __first Iterator referencing the first character to remove.
2355 * @param __last Iterator referencing the end of the range.
2356 * @return Iterator referencing location of first after removal.
2357 *
2358 * Removes the characters in the range [first,last) from this string.
2359 * The value of the string doesn't change if an error is thrown.
2360 */
2361 _GLIBCXX20_CONSTEXPRconstexpr
2362 iterator
2363 erase(__const_iterator __first, __const_iterator __last)
2364 {
2365 _GLIBCXX_DEBUG_PEDASSERT(__first >= begin() && __first <= __last
2366 && __last <= end());
2367 const size_type __pos = __first - begin();
2368 if (__last == end())
2369 this->_M_set_length(__pos);
2370 else
2371 this->_M_erase(__pos, __last - __first);
2372 return iterator(this->_M_data() + __pos);
2373 }
2374
2375#if __cplusplus202002L >= 201103L
2376 /**
2377 * @brief Remove the last character.
2378 *
2379 * The string must be non-empty.
2380 */
2381 _GLIBCXX20_CONSTEXPRconstexpr
2382 void
2383 pop_back() noexcept
2384 {
2385 __glibcxx_assert(!empty())do { if (std::__is_constant_evaluated() && !bool(!empty
())) std::__glibcxx_assert_fail(); } while (false);
2386 _M_erase(size() - 1, 1);
2387 }
2388#endif // C++11
2389
2390 /**
2391 * @brief Replace characters with value from another string.
2392 * @param __pos Index of first character to replace.
2393 * @param __n Number of characters to be replaced.
2394 * @param __str String to insert.
2395 * @return Reference to this string.
2396 * @throw std::out_of_range If @a pos is beyond the end of this
2397 * string.
2398 * @throw std::length_error If new length exceeds @c max_size().
2399 *
2400 * Removes the characters in the range [__pos,__pos+__n) from
2401 * this string. In place, the value of @a __str is inserted.
2402 * If @a __pos is beyond end of string, out_of_range is thrown.
2403 * If the length of the result exceeds max_size(), length_error
2404 * is thrown. The value of the string doesn't change if an
2405 * error is thrown.
2406 */
2407 _GLIBCXX20_CONSTEXPRconstexpr
2408 basic_string&
2409 replace(size_type __pos, size_type __n, const basic_string& __str)
2410 { return this->replace(__pos, __n, __str._M_data(), __str.size()); }
2411
2412 /**
2413 * @brief Replace characters with value from another string.
2414 * @param __pos1 Index of first character to replace.
2415 * @param __n1 Number of characters to be replaced.
2416 * @param __str String to insert.
2417 * @param __pos2 Index of first character of str to use.
2418 * @param __n2 Number of characters from str to use.
2419 * @return Reference to this string.
2420 * @throw std::out_of_range If @a __pos1 > size() or @a __pos2 >
2421 * __str.size().
2422 * @throw std::length_error If new length exceeds @c max_size().
2423 *
2424 * Removes the characters in the range [__pos1,__pos1 + n) from this
2425 * string. In place, the value of @a __str is inserted. If @a __pos is
2426 * beyond end of string, out_of_range is thrown. If the length of the
2427 * result exceeds max_size(), length_error is thrown. The value of the
2428 * string doesn't change if an error is thrown.
2429 */
2430 _GLIBCXX20_CONSTEXPRconstexpr
2431 basic_string&
2432 replace(size_type __pos1, size_type __n1, const basic_string& __str,
2433 size_type __pos2, size_type __n2 = npos)
2434 { return this->replace(__pos1, __n1, __str._M_data()
2435 + __str._M_check(__pos2, "basic_string::replace"),
2436 __str._M_limit(__pos2, __n2)); }
2437
2438 /**
2439 * @brief Replace characters with value of a C substring.
2440 * @param __pos Index of first character to replace.
2441 * @param __n1 Number of characters to be replaced.
2442 * @param __s C string to insert.
2443 * @param __n2 Number of characters from @a s to use.
2444 * @return Reference to this string.
2445 * @throw std::out_of_range If @a pos1 > size().
2446 * @throw std::length_error If new length exceeds @c max_size().
2447 *
2448 * Removes the characters in the range [__pos,__pos + __n1)
2449 * from this string. In place, the first @a __n2 characters of
2450 * @a __s are inserted, or all of @a __s if @a __n2 is too large. If
2451 * @a __pos is beyond end of string, out_of_range is thrown. If
2452 * the length of result exceeds max_size(), length_error is
2453 * thrown. The value of the string doesn't change if an error
2454 * is thrown.
2455 */
2456 _GLIBCXX20_CONSTEXPRconstexpr
2457 basic_string&
2458 replace(size_type __pos, size_type __n1, const _CharT* __s,
2459 size_type __n2)
2460 {
2461 __glibcxx_requires_string_len(__s, __n2);
2462 return _M_replace(_M_check(__pos, "basic_string::replace"),
2463 _M_limit(__pos, __n1), __s, __n2);
2464 }
2465
2466 /**
2467 * @brief Replace characters with value of a C string.
2468 * @param __pos Index of first character to replace.
2469 * @param __n1 Number of characters to be replaced.
2470 * @param __s C string to insert.
2471 * @return Reference to this string.
2472 * @throw std::out_of_range If @a pos > size().
2473 * @throw std::length_error If new length exceeds @c max_size().
2474 *
2475 * Removes the characters in the range [__pos,__pos + __n1)
2476 * from this string. In place, the characters of @a __s are
2477 * inserted. If @a __pos is beyond end of string, out_of_range
2478 * is thrown. If the length of result exceeds max_size(),
2479 * length_error is thrown. The value of the string doesn't
2480 * change if an error is thrown.
2481 */
2482 _GLIBCXX20_CONSTEXPRconstexpr
2483 basic_string&
2484 replace(size_type __pos, size_type __n1, const _CharT* __s)
2485 {
2486 __glibcxx_requires_string(__s);
2487 return this->replace(__pos, __n1, __s, traits_type::length(__s));
2488 }
2489
2490 /**
2491 * @brief Replace characters with multiple characters.
2492 * @param __pos Index of first character to replace.
2493 * @param __n1 Number of characters to be replaced.
2494 * @param __n2 Number of characters to insert.
2495 * @param __c Character to insert.
2496 * @return Reference to this string.
2497 * @throw std::out_of_range If @a __pos > size().
2498 * @throw std::length_error If new length exceeds @c max_size().
2499 *
2500 * Removes the characters in the range [pos,pos + n1) from this
2501 * string. In place, @a __n2 copies of @a __c are inserted.
2502 * If @a __pos is beyond end of string, out_of_range is thrown.
2503 * If the length of result exceeds max_size(), length_error is
2504 * thrown. The value of the string doesn't change if an error
2505 * is thrown.
2506 */
2507 _GLIBCXX20_CONSTEXPRconstexpr
2508 basic_string&
2509 replace(size_type __pos, size_type __n1, size_type __n2, _CharT __c)
2510 { return _M_replace_aux(_M_check(__pos, "basic_string::replace"),
2511 _M_limit(__pos, __n1), __n2, __c); }
2512
2513 /**
2514 * @brief Replace range of characters with string.
2515 * @param __i1 Iterator referencing start of range to replace.
2516 * @param __i2 Iterator referencing end of range to replace.
2517 * @param __str String value to insert.
2518 * @return Reference to this string.
2519 * @throw std::length_error If new length exceeds @c max_size().
2520 *
2521 * Removes the characters in the range [__i1,__i2). In place,
2522 * the value of @a __str is inserted. If the length of result
2523 * exceeds max_size(), length_error is thrown. The value of
2524 * the string doesn't change if an error is thrown.
2525 */
2526 _GLIBCXX20_CONSTEXPRconstexpr
2527 basic_string&
2528 replace(__const_iterator __i1, __const_iterator __i2,
2529 const basic_string& __str)
2530 { return this->replace(__i1, __i2, __str._M_data(), __str.size()); }
2531
2532 /**
2533 * @brief Replace range of characters with C substring.
2534 * @param __i1 Iterator referencing start of range to replace.
2535 * @param __i2 Iterator referencing end of range to replace.
2536 * @param __s C string value to insert.
2537 * @param __n Number of characters from s to insert.
2538 * @return Reference to this string.
2539 * @throw std::length_error If new length exceeds @c max_size().
2540 *
2541 * Removes the characters in the range [__i1,__i2). In place,
2542 * the first @a __n characters of @a __s are inserted. If the
2543 * length of result exceeds max_size(), length_error is thrown.
2544 * The value of the string doesn't change if an error is
2545 * thrown.
2546 */
2547 _GLIBCXX20_CONSTEXPRconstexpr
2548 basic_string&
2549 replace(__const_iterator __i1, __const_iterator __i2,
2550 const _CharT* __s, size_type __n)
2551 {
2552 _GLIBCXX_DEBUG_PEDASSERT(begin() <= __i1 && __i1 <= __i2
2553 && __i2 <= end());
2554 return this->replace(__i1 - begin(), __i2 - __i1, __s, __n);
2555 }
2556
2557 /**
2558 * @brief Replace range of characters with C string.
2559 * @param __i1 Iterator referencing start of range to replace.
2560 * @param __i2 Iterator referencing end of range to replace.
2561 * @param __s C string value to insert.
2562 * @return Reference to this string.
2563 * @throw std::length_error If new length exceeds @c max_size().
2564 *
2565 * Removes the characters in the range [__i1,__i2). In place,
2566 * the characters of @a __s are inserted. If the length of
2567 * result exceeds max_size(), length_error is thrown. The
2568 * value of the string doesn't change if an error is thrown.
2569 */
2570 _GLIBCXX20_CONSTEXPRconstexpr
2571 basic_string&
2572 replace(__const_iterator __i1, __const_iterator __i2, const _CharT* __s)
2573 {
2574 __glibcxx_requires_string(__s);
2575 return this->replace(__i1, __i2, __s, traits_type::length(__s));
2576 }
2577
2578 /**
2579 * @brief Replace range of characters with multiple characters
2580 * @param __i1 Iterator referencing start of range to replace.
2581 * @param __i2 Iterator referencing end of range to replace.
2582 * @param __n Number of characters to insert.
2583 * @param __c Character to insert.
2584 * @return Reference to this string.
2585 * @throw std::length_error If new length exceeds @c max_size().
2586 *
2587 * Removes the characters in the range [__i1,__i2). In place,
2588 * @a __n copies of @a __c are inserted. If the length of
2589 * result exceeds max_size(), length_error is thrown. The
2590 * value of the string doesn't change if an error is thrown.
2591 */
2592 _GLIBCXX20_CONSTEXPRconstexpr
2593 basic_string&
2594 replace(__const_iterator __i1, __const_iterator __i2, size_type __n,
2595 _CharT __c)
2596 {
2597 _GLIBCXX_DEBUG_PEDASSERT(begin() <= __i1 && __i1 <= __i2
2598 && __i2 <= end());
2599 return _M_replace_aux(__i1 - begin(), __i2 - __i1, __n, __c);
2600 }
2601
2602 /**
2603 * @brief Replace range of characters with range.
2604 * @param __i1 Iterator referencing start of range to replace.
2605 * @param __i2 Iterator referencing end of range to replace.
2606 * @param __k1 Iterator referencing start of range to insert.
2607 * @param __k2 Iterator referencing end of range to insert.
2608 * @return Reference to this string.
2609 * @throw std::length_error If new length exceeds @c max_size().
2610 *
2611 * Removes the characters in the range [__i1,__i2). In place,
2612 * characters in the range [__k1,__k2) are inserted. If the
2613 * length of result exceeds max_size(), length_error is thrown.
2614 * The value of the string doesn't change if an error is
2615 * thrown.
2616 */
2617#if __cplusplus202002L >= 201103L
2618 template<class _InputIterator,
2619 typename = std::_RequireInputIter<_InputIterator>>
2620 _GLIBCXX20_CONSTEXPRconstexpr
2621 basic_string&
2622 replace(const_iterator __i1, const_iterator __i2,
2623 _InputIterator __k1, _InputIterator __k2)
2624 {
2625 _GLIBCXX_DEBUG_PEDASSERT(begin() <= __i1 && __i1 <= __i2
2626 && __i2 <= end());
2627 __glibcxx_requires_valid_range(__k1, __k2);
2628 return this->_M_replace_dispatch(__i1, __i2, __k1, __k2,
2629 std::__false_type());
2630 }
2631#else
2632 template<class _InputIterator>
2633#ifdef _GLIBCXX_DISAMBIGUATE_REPLACE_INST
2634 typename __enable_if_not_native_iterator<_InputIterator>::__type
2635#else
2636 basic_string&
2637#endif
2638 replace(iterator __i1, iterator __i2,
2639 _InputIterator __k1, _InputIterator __k2)
2640 {
2641 _GLIBCXX_DEBUG_PEDASSERT(begin() <= __i1 && __i1 <= __i2
2642 && __i2 <= end());
2643 __glibcxx_requires_valid_range(__k1, __k2);
2644 typedef typename std::__is_integer<_InputIterator>::__type _Integral;
2645 return _M_replace_dispatch(__i1, __i2, __k1, __k2, _Integral());
2646 }
2647#endif
2648
2649 // Specializations for the common case of pointer and iterator:
2650 // useful to avoid the overhead of temporary buffering in _M_replace.
2651 _GLIBCXX20_CONSTEXPRconstexpr
2652 basic_string&
2653 replace(__const_iterator __i1, __const_iterator __i2,
2654 _CharT* __k1, _CharT* __k2)
2655 {
2656 _GLIBCXX_DEBUG_PEDASSERT(begin() <= __i1 && __i1 <= __i2
2657 && __i2 <= end());
2658 __glibcxx_requires_valid_range(__k1, __k2);
2659 return this->replace(__i1 - begin(), __i2 - __i1,
2660 __k1, __k2 - __k1);
2661 }
2662
2663 _GLIBCXX20_CONSTEXPRconstexpr
2664 basic_string&
2665 replace(__const_iterator __i1, __const_iterator __i2,
2666 const _CharT* __k1, const _CharT* __k2)
2667 {
2668 _GLIBCXX_DEBUG_PEDASSERT(begin() <= __i1 && __i1 <= __i2
2669 && __i2 <= end());
2670 __glibcxx_requires_valid_range(__k1, __k2);
2671 return this->replace(__i1 - begin(), __i2 - __i1,
2672 __k1, __k2 - __k1);
2673 }
2674
2675 _GLIBCXX20_CONSTEXPRconstexpr
2676 basic_string&
2677 replace(__const_iterator __i1, __const_iterator __i2,
2678 iterator __k1, iterator __k2)
2679 {
2680 _GLIBCXX_DEBUG_PEDASSERT(begin() <= __i1 && __i1 <= __i2
2681 && __i2 <= end());
2682 __glibcxx_requires_valid_range(__k1, __k2);
2683 return this->replace(__i1 - begin(), __i2 - __i1,
2684 __k1.base(), __k2 - __k1);
2685 }
2686
2687 _GLIBCXX20_CONSTEXPRconstexpr
2688 basic_string&
2689 replace(__const_iterator __i1, __const_iterator __i2,
2690 const_iterator __k1, const_iterator __k2)
2691 {
2692 _GLIBCXX_DEBUG_PEDASSERT(begin() <= __i1 && __i1 <= __i2
2693 && __i2 <= end());
2694 __glibcxx_requires_valid_range(__k1, __k2);
2695 return this->replace(__i1 - begin(), __i2 - __i1,
2696 __k1.base(), __k2 - __k1);
2697 }
2698
2699#if __glibcxx_containers_ranges // C++ >= 23
2700 /**
2701 * @brief Replace part of the string with a range.
2702 * @param __rg A range of values that are convertible to `value_type`.
2703 * @since C++23
2704 *
2705 * The range `__rg` is allowed to overlap with `*this`.
2706 */
2707 template<__detail::__container_compatible_range<_CharT> _Rg>
2708 constexpr basic_string&
2709 replace_with_range(const_iterator __i1, const_iterator __i2, _Rg&& __rg)
2710 {
2711 if (__i1 == cend())
2712 append_range(std::forward<_Rg>(__rg));
2713 else
2714 {
2715 basic_string __s(from_range, std::forward<_Rg>(__rg),
2716 _M_get_allocator());
2717 replace(__i1, __i2, __s);
2718 }
2719 return *this;
2720 }
2721#endif
2722
2723#if __cplusplus202002L >= 201103L
2724 /**
2725 * @brief Replace range of characters with initializer_list.
2726 * @param __i1 Iterator referencing start of range to replace.
2727 * @param __i2 Iterator referencing end of range to replace.
2728 * @param __l The initializer_list of characters to insert.
2729 * @return Reference to this string.
2730 * @throw std::length_error If new length exceeds @c max_size().
2731 *
2732 * Removes the characters in the range [__i1,__i2). In place,
2733 * characters in the range [__k1,__k2) are inserted. If the
2734 * length of result exceeds max_size(), length_error is thrown.
2735 * The value of the string doesn't change if an error is
2736 * thrown.
2737 */
2738 _GLIBCXX20_CONSTEXPRconstexpr
2739 basic_string& replace(const_iterator __i1, const_iterator __i2,
2740 initializer_list<_CharT> __l)
2741 { return this->replace(__i1, __i2, __l.begin(), __l.size()); }
2742#endif // C++11
2743
2744#ifdef __glibcxx_string_view201803L // >= C++17
2745 /**
2746 * @brief Replace range of characters with string_view.
2747 * @param __pos The position to replace at.
2748 * @param __n The number of characters to replace.
2749 * @param __svt The object convertible to string_view to insert.
2750 * @return Reference to this string.
2751 */
2752 template<typename _Tp>
2753 _GLIBCXX20_CONSTEXPRconstexpr
2754 _If_sv<_Tp, basic_string&>
2755 replace(size_type __pos, size_type __n, const _Tp& __svt)
2756 {
2757 __sv_type __sv = __svt;
2758 return this->replace(__pos, __n, __sv.data(), __sv.size());
2759 }
2760
2761 /**
2762 * @brief Replace range of characters with string_view.
2763 * @param __pos1 The position to replace at.
2764 * @param __n1 The number of characters to replace.
2765 * @param __svt The object convertible to string_view to insert from.
2766 * @param __pos2 The position in the string_view to insert from.
2767 * @param __n2 The number of characters to insert.
2768 * @return Reference to this string.
2769 */
2770 template<typename _Tp>
2771 _GLIBCXX20_CONSTEXPRconstexpr
2772 _If_sv<_Tp, basic_string&>
2773 replace(size_type __pos1, size_type __n1, const _Tp& __svt,
2774 size_type __pos2, size_type __n2 = npos)
2775 {
2776 __sv_type __sv = __svt;
2777 return this->replace(__pos1, __n1,
2778 __sv.data()
2779 + std::__sv_check(__sv.size(), __pos2, "basic_string::replace"),
2780 std::__sv_limit(__sv.size(), __pos2, __n2));
2781 }
2782
2783 /**
2784 * @brief Replace range of characters with string_view.
2785 * @param __i1 An iterator referencing the start position
2786 to replace at.
2787 * @param __i2 An iterator referencing the end position
2788 for the replace.
2789 * @param __svt The object convertible to string_view to insert from.
2790 * @return Reference to this string.
2791 */
2792 template<typename _Tp>
2793 _GLIBCXX20_CONSTEXPRconstexpr
2794 _If_sv<_Tp, basic_string&>
2795 replace(const_iterator __i1, const_iterator __i2, const _Tp& __svt)
2796 {
2797 __sv_type __sv = __svt;
2798 return this->replace(__i1 - begin(), __i2 - __i1, __sv);
2799 }
2800#endif // C++17
2801
2802 private:
2803 template<class _Integer>
2804 _GLIBCXX20_CONSTEXPRconstexpr
2805 basic_string&
2806 _M_replace_dispatch(const_iterator __i1, const_iterator __i2,
2807 _Integer __n, _Integer __val, __true_type)
2808 { return _M_replace_aux(__i1 - begin(), __i2 - __i1, __n, __val); }
2809
2810 template<class _InputIterator>
2811 _GLIBCXX20_CONSTEXPRconstexpr
2812 basic_string&
2813 _M_replace_dispatch(const_iterator __i1, const_iterator __i2,
2814 _InputIterator __k1, _InputIterator __k2,
2815 __false_type);
2816
2817 _GLIBCXX20_CONSTEXPRconstexpr
2818 basic_string&
2819 _M_replace_aux(size_type __pos1, size_type __n1, size_type __n2,
2820 _CharT __c);
2821
2822 __attribute__((__noinline__, __noclone__, __cold__)) void
2823 _M_replace_cold(pointer __p, size_type __len1, const _CharT* __s,
2824 const size_type __len2, const size_type __how_much);
2825
2826 _GLIBCXX20_CONSTEXPRconstexpr
2827 basic_string&
2828 _M_replace(size_type __pos, size_type __len1, const _CharT* __s,
2829 const size_type __len2);
2830
2831 _GLIBCXX20_CONSTEXPRconstexpr
2832 basic_string&
2833 _M_append(const _CharT* __s, size_type __n);
2834
2835 public:
2836
2837 /**
2838 * @brief Copy substring into C string.
2839 * @param __s C string to copy value into.
2840 * @param __n Number of characters to copy.
2841 * @param __pos Index of first character to copy.
2842 * @return Number of characters actually copied
2843 * @throw std::out_of_range If __pos > size().
2844 *
2845 * Copies up to @a __n characters starting at @a __pos into the
2846 * C string @a __s. If @a __pos is %greater than size(),
2847 * out_of_range is thrown.
2848 */
2849 _GLIBCXX20_CONSTEXPRconstexpr
2850 size_type
2851 copy(_CharT* __s, size_type __n, size_type __pos = 0) const;
2852
2853 /**
2854 * @brief Swap contents with another string.
2855 * @param __s String to swap with.
2856 *
2857 * Exchanges the contents of this string with that of @a __s in constant
2858 * time.
2859 */
2860 _GLIBCXX20_CONSTEXPRconstexpr
2861 void
2862 swap(basic_string& __s) _GLIBCXX_NOEXCEPTnoexcept;
2863
2864 // String operations:
2865 /**
2866 * @brief Return const pointer to null-terminated contents.
2867 *
2868 * This is a handle to internal data. Do not modify or dire things may
2869 * happen.
2870 */
2871 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2872 const _CharT*
2873 c_str() const _GLIBCXX_NOEXCEPTnoexcept
2874 { return _M_data(); }
2875
2876 /**
2877 * @brief Return const pointer to contents.
2878 *
2879 * This is a pointer to internal data. It is undefined to modify
2880 * the contents through the returned pointer. To get a pointer that
2881 * allows modifying the contents use @c &str[0] instead,
2882 * (or in C++17 the non-const @c str.data() overload).
2883 */
2884 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2885 const _CharT*
2886 data() const _GLIBCXX_NOEXCEPTnoexcept
2887 { return _M_data(); }
2888
2889#if __cplusplus202002L >= 201703L
2890 /**
2891 * @brief Return non-const pointer to contents.
2892 *
2893 * This is a pointer to the character sequence held by the string.
2894 * Modifying the characters in the sequence is allowed.
2895 */
2896 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2897 _CharT*
2898 data() noexcept
2899 { return _M_data(); }
2900#endif
2901
2902 /**
2903 * @brief Return copy of allocator used to construct this string.
2904 */
2905 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2906 allocator_type
2907 get_allocator() const _GLIBCXX_NOEXCEPTnoexcept
2908 { return _M_get_allocator(); }
2909
2910 /**
2911 * @brief Find position of a C substring.
2912 * @param __s C string to locate.
2913 * @param __pos Index of character to search from.
2914 * @param __n Number of characters from @a s to search for.
2915 * @return Index of start of first occurrence.
2916 *
2917 * Starting from @a __pos, searches forward for the first @a
2918 * __n characters in @a __s within this string. If found,
2919 * returns the index where it begins. If not found, returns
2920 * npos.
2921 */
2922 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2923 size_type
2924 find(const _CharT* __s, size_type __pos, size_type __n) const
2925 _GLIBCXX_NOEXCEPTnoexcept;
2926
2927 /**
2928 * @brief Find position of a string.
2929 * @param __str String to locate.
2930 * @param __pos Index of character to search from (default 0).
2931 * @return Index of start of first occurrence.
2932 *
2933 * Starting from @a __pos, searches forward for value of @a __str within
2934 * this string. If found, returns the index where it begins. If not
2935 * found, returns npos.
2936 */
2937 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2938 size_type
2939 find(const basic_string& __str, size_type __pos = 0) const
2940 _GLIBCXX_NOEXCEPTnoexcept
2941 { return this->find(__str.data(), __pos, __str.size()); }
2942
2943#ifdef __glibcxx_string_view201803L // >= C++17
2944 /**
2945 * @brief Find position of a string_view.
2946 * @param __svt The object convertible to string_view to locate.
2947 * @param __pos Index of character to search from (default 0).
2948 * @return Index of start of first occurrence.
2949 */
2950 template<typename _Tp>
2951 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2952 _If_sv<_Tp, size_type>
2953 find(const _Tp& __svt, size_type __pos = 0) const
2954 noexcept(is_same<_Tp, __sv_type>::value)
2955 {
2956 __sv_type __sv = __svt;
2957 return this->find(__sv.data(), __pos, __sv.size());
2958 }
2959#endif // C++17
2960
2961 /**
2962 * @brief Find position of a C string.
2963 * @param __s C string to locate.
2964 * @param __pos Index of character to search from (default 0).
2965 * @return Index of start of first occurrence.
2966 *
2967 * Starting from @a __pos, searches forward for the value of @a
2968 * __s within this string. If found, returns the index where
2969 * it begins. If not found, returns npos.
2970 */
2971 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2972 size_type
2973 find(const _CharT* __s, size_type __pos = 0) const _GLIBCXX_NOEXCEPTnoexcept
2974 {
2975 __glibcxx_requires_string(__s);
2976 return this->find(__s, __pos, traits_type::length(__s));
2977 }
2978
2979 /**
2980 * @brief Find position of a character.
2981 * @param __c Character to locate.
2982 * @param __pos Index of character to search from (default 0).
2983 * @return Index of first occurrence.
2984 *
2985 * Starting from @a __pos, searches forward for @a __c within
2986 * this string. If found, returns the index where it was
2987 * found. If not found, returns npos.
2988 */
2989 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
2990 size_type
2991 find(_CharT __c, size_type __pos = 0) const _GLIBCXX_NOEXCEPTnoexcept;
2992
2993 /**
2994 * @brief Find last position of a string.
2995 * @param __str String to locate.
2996 * @param __pos Index of character to search back from (default end).
2997 * @return Index of start of last occurrence.
2998 *
2999 * Starting from @a __pos, searches backward for value of @a
3000 * __str within this string. If found, returns the index where
3001 * it begins. If not found, returns npos.
3002 */
3003 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3004 size_type
3005 rfind(const basic_string& __str, size_type __pos = npos) const
3006 _GLIBCXX_NOEXCEPTnoexcept
3007 { return this->rfind(__str.data(), __pos, __str.size()); }
3008
3009#ifdef __glibcxx_string_view201803L // >= C++17
3010 /**
3011 * @brief Find last position of a string_view.
3012 * @param __svt The object convertible to string_view to locate.
3013 * @param __pos Index of character to search back from (default end).
3014 * @return Index of start of last occurrence.
3015 */
3016 template<typename _Tp>
3017 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3018 _If_sv<_Tp, size_type>
3019 rfind(const _Tp& __svt, size_type __pos = npos) const
3020 noexcept(is_same<_Tp, __sv_type>::value)
3021 {
3022 __sv_type __sv = __svt;
3023 return this->rfind(__sv.data(), __pos, __sv.size());
3024 }
3025#endif // C++17
3026
3027 /**
3028 * @brief Find last position of a C substring.
3029 * @param __s C string to locate.
3030 * @param __pos Index of character to search back from.
3031 * @param __n Number of characters from s to search for.
3032 * @return Index of start of last occurrence.
3033 *
3034 * Starting from @a __pos, searches backward for the first @a
3035 * __n characters in @a __s within this string. If found,
3036 * returns the index where it begins. If not found, returns
3037 * npos.
3038 */
3039 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3040 size_type
3041 rfind(const _CharT* __s, size_type __pos, size_type __n) const
3042 _GLIBCXX_NOEXCEPTnoexcept;
3043
3044 /**
3045 * @brief Find last position of a C string.
3046 * @param __s C string to locate.
3047 * @param __pos Index of character to start search at (default end).
3048 * @return Index of start of last occurrence.
3049 *
3050 * Starting from @a __pos, searches backward for the value of
3051 * @a __s within this string. If found, returns the index
3052 * where it begins. If not found, returns npos.
3053 */
3054 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3055 size_type
3056 rfind(const _CharT* __s, size_type __pos = npos) const
3057 {
3058 __glibcxx_requires_string(__s);
3059 return this->rfind(__s, __pos, traits_type::length(__s));
3060 }
3061
3062 /**
3063 * @brief Find last position of a character.
3064 * @param __c Character to locate.
3065 * @param __pos Index of character to search back from (default end).
3066 * @return Index of last occurrence.
3067 *
3068 * Starting from @a __pos, searches backward for @a __c within
3069 * this string. If found, returns the index where it was
3070 * found. If not found, returns npos.
3071 */
3072 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3073 size_type
3074 rfind(_CharT __c, size_type __pos = npos) const _GLIBCXX_NOEXCEPTnoexcept;
3075
3076 /**
3077 * @brief Find position of a character of string.
3078 * @param __str String containing characters to locate.
3079 * @param __pos Index of character to search from (default 0).
3080 * @return Index of first occurrence.
3081 *
3082 * Starting from @a __pos, searches forward for one of the
3083 * characters of @a __str within this string. If found,
3084 * returns the index where it was found. If not found, returns
3085 * npos.
3086 */
3087 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3088 size_type
3089 find_first_of(const basic_string& __str, size_type __pos = 0) const
3090 _GLIBCXX_NOEXCEPTnoexcept
3091 { return this->find_first_of(__str.data(), __pos, __str.size()); }
3092
3093#ifdef __glibcxx_string_view201803L // >= C++17
3094 /**
3095 * @brief Find position of a character of a string_view.
3096 * @param __svt An object convertible to string_view containing
3097 * characters to locate.
3098 * @param __pos Index of character to search from (default 0).
3099 * @return Index of first occurrence.
3100 */
3101 template<typename _Tp>
3102 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3103 _If_sv<_Tp, size_type>
3104 find_first_of(const _Tp& __svt, size_type __pos = 0) const
3105 noexcept(is_same<_Tp, __sv_type>::value)
3106 {
3107 __sv_type __sv = __svt;
3108 return this->find_first_of(__sv.data(), __pos, __sv.size());
3109 }
3110#endif // C++17
3111
3112 /**
3113 * @brief Find position of a character of C substring.
3114 * @param __s String containing characters to locate.
3115 * @param __pos Index of character to search from.
3116 * @param __n Number of characters from s to search for.
3117 * @return Index of first occurrence.
3118 *
3119 * Starting from @a __pos, searches forward for one of the
3120 * first @a __n characters of @a __s within this string. If
3121 * found, returns the index where it was found. If not found,
3122 * returns npos.
3123 */
3124 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3125 size_type
3126 find_first_of(const _CharT* __s, size_type __pos, size_type __n) const
3127 _GLIBCXX_NOEXCEPTnoexcept;
3128
3129 /**
3130 * @brief Find position of a character of C string.
3131 * @param __s String containing characters to locate.
3132 * @param __pos Index of character to search from (default 0).
3133 * @return Index of first occurrence.
3134 *
3135 * Starting from @a __pos, searches forward for one of the
3136 * characters of @a __s within this string. If found, returns
3137 * the index where it was found. If not found, returns npos.
3138 */
3139 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3140 size_type
3141 find_first_of(const _CharT* __s, size_type __pos = 0) const
3142 _GLIBCXX_NOEXCEPTnoexcept
3143 {
3144 __glibcxx_requires_string(__s);
3145 return this->find_first_of(__s, __pos, traits_type::length(__s));
3146 }
3147
3148 /**
3149 * @brief Find position of a character.
3150 * @param __c Character to locate.
3151 * @param __pos Index of character to search from (default 0).
3152 * @return Index of first occurrence.
3153 *
3154 * Starting from @a __pos, searches forward for the character
3155 * @a __c within this string. If found, returns the index
3156 * where it was found. If not found, returns npos.
3157 *
3158 * Note: equivalent to find(__c, __pos).
3159 */
3160 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3161 size_type
3162 find_first_of(_CharT __c, size_type __pos = 0) const _GLIBCXX_NOEXCEPTnoexcept
3163 { return this->find(__c, __pos); }
3164
3165 /**
3166 * @brief Find last position of a character of string.
3167 * @param __str String containing characters to locate.
3168 * @param __pos Index of character to search back from (default end).
3169 * @return Index of last occurrence.
3170 *
3171 * Starting from @a __pos, searches backward for one of the
3172 * characters of @a __str within this string. If found,
3173 * returns the index where it was found. If not found, returns
3174 * npos.
3175 */
3176 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3177 size_type
3178 find_last_of(const basic_string& __str, size_type __pos = npos) const
3179 _GLIBCXX_NOEXCEPTnoexcept
3180 { return this->find_last_of(__str.data(), __pos, __str.size()); }
3181
3182#ifdef __glibcxx_string_view201803L // >= C++17
3183 /**
3184 * @brief Find last position of a character of string.
3185 * @param __svt An object convertible to string_view containing
3186 * characters to locate.
3187 * @param __pos Index of character to search back from (default end).
3188 * @return Index of last occurrence.
3189 */
3190 template<typename _Tp>
3191 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3192 _If_sv<_Tp, size_type>
3193 find_last_of(const _Tp& __svt, size_type __pos = npos) const
3194 noexcept(is_same<_Tp, __sv_type>::value)
3195 {
3196 __sv_type __sv = __svt;
3197 return this->find_last_of(__sv.data(), __pos, __sv.size());
3198 }
3199#endif // C++17
3200
3201 /**
3202 * @brief Find last position of a character of C substring.
3203 * @param __s C string containing characters to locate.
3204 * @param __pos Index of character to search back from.
3205 * @param __n Number of characters from s to search for.
3206 * @return Index of last occurrence.
3207 *
3208 * Starting from @a __pos, searches backward for one of the
3209 * first @a __n characters of @a __s within this string. If
3210 * found, returns the index where it was found. If not found,
3211 * returns npos.
3212 */
3213 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3214 size_type
3215 find_last_of(const _CharT* __s, size_type __pos, size_type __n) const
3216 _GLIBCXX_NOEXCEPTnoexcept;
3217
3218 /**
3219 * @brief Find last position of a character of C string.
3220 * @param __s C string containing characters to locate.
3221 * @param __pos Index of character to search back from (default end).
3222 * @return Index of last occurrence.
3223 *
3224 * Starting from @a __pos, searches backward for one of the
3225 * characters of @a __s within this string. If found, returns
3226 * the index where it was found. If not found, returns npos.
3227 */
3228 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3229 size_type
3230 find_last_of(const _CharT* __s, size_type __pos = npos) const
3231 _GLIBCXX_NOEXCEPTnoexcept
3232 {
3233 __glibcxx_requires_string(__s);
3234 return this->find_last_of(__s, __pos, traits_type::length(__s));
3235 }
3236
3237 /**
3238 * @brief Find last position of a character.
3239 * @param __c Character to locate.
3240 * @param __pos Index of character to search back from (default end).
3241 * @return Index of last occurrence.
3242 *
3243 * Starting from @a __pos, searches backward for @a __c within
3244 * this string. If found, returns the index where it was
3245 * found. If not found, returns npos.
3246 *
3247 * Note: equivalent to rfind(__c, __pos).
3248 */
3249 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3250 size_type
3251 find_last_of(_CharT __c, size_type __pos = npos) const _GLIBCXX_NOEXCEPTnoexcept
3252 { return this->rfind(__c, __pos); }
3253
3254 /**
3255 * @brief Find position of a character not in string.
3256 * @param __str String containing characters to avoid.
3257 * @param __pos Index of character to search from (default 0).
3258 * @return Index of first occurrence.
3259 *
3260 * Starting from @a __pos, searches forward for a character not contained
3261 * in @a __str within this string. If found, returns the index where it
3262 * was found. If not found, returns npos.
3263 */
3264 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3265 size_type
3266 find_first_not_of(const basic_string& __str, size_type __pos = 0) const
3267 _GLIBCXX_NOEXCEPTnoexcept
3268 { return this->find_first_not_of(__str.data(), __pos, __str.size()); }
3269
3270#ifdef __glibcxx_string_view201803L // >= C++17
3271 /**
3272 * @brief Find position of a character not in a string_view.
3273 * @param __svt A object convertible to string_view containing
3274 * characters to avoid.
3275 * @param __pos Index of character to search from (default 0).
3276 * @return Index of first occurrence.
3277 */
3278 template<typename _Tp>
3279 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3280 _If_sv<_Tp, size_type>
3281 find_first_not_of(const _Tp& __svt, size_type __pos = 0) const
3282 noexcept(is_same<_Tp, __sv_type>::value)
3283 {
3284 __sv_type __sv = __svt;
3285 return this->find_first_not_of(__sv.data(), __pos, __sv.size());
3286 }
3287#endif // C++17
3288
3289 /**
3290 * @brief Find position of a character not in C substring.
3291 * @param __s C string containing characters to avoid.
3292 * @param __pos Index of character to search from.
3293 * @param __n Number of characters from __s to consider.
3294 * @return Index of first occurrence.
3295 *
3296 * Starting from @a __pos, searches forward for a character not
3297 * contained in the first @a __n characters of @a __s within
3298 * this string. If found, returns the index where it was
3299 * found. If not found, returns npos.
3300 */
3301 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3302 size_type
3303 find_first_not_of(const _CharT* __s, size_type __pos,
3304 size_type __n) const _GLIBCXX_NOEXCEPTnoexcept;
3305
3306 /**
3307 * @brief Find position of a character not in C string.
3308 * @param __s C string containing characters to avoid.
3309 * @param __pos Index of character to search from (default 0).
3310 * @return Index of first occurrence.
3311 *
3312 * Starting from @a __pos, searches forward for a character not
3313 * contained in @a __s within this string. If found, returns
3314 * the index where it was found. If not found, returns npos.
3315 */
3316 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3317 size_type
3318 find_first_not_of(const _CharT* __s, size_type __pos = 0) const
3319 _GLIBCXX_NOEXCEPTnoexcept
3320 {
3321 __glibcxx_requires_string(__s);
3322 return this->find_first_not_of(__s, __pos, traits_type::length(__s));
3323 }
3324
3325 /**
3326 * @brief Find position of a different character.
3327 * @param __c Character to avoid.
3328 * @param __pos Index of character to search from (default 0).
3329 * @return Index of first occurrence.
3330 *
3331 * Starting from @a __pos, searches forward for a character
3332 * other than @a __c within this string. If found, returns the
3333 * index where it was found. If not found, returns npos.
3334 */
3335 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3336 size_type
3337 find_first_not_of(_CharT __c, size_type __pos = 0) const
3338 _GLIBCXX_NOEXCEPTnoexcept;
3339
3340 /**
3341 * @brief Find last position of a character not in string.
3342 * @param __str String containing characters to avoid.
3343 * @param __pos Index of character to search back from (default end).
3344 * @return Index of last occurrence.
3345 *
3346 * Starting from @a __pos, searches backward for a character
3347 * not contained in @a __str within this string. If found,
3348 * returns the index where it was found. If not found, returns
3349 * npos.
3350 */
3351 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3352 size_type
3353 find_last_not_of(const basic_string& __str, size_type __pos = npos) const
3354 _GLIBCXX_NOEXCEPTnoexcept
3355 { return this->find_last_not_of(__str.data(), __pos, __str.size()); }
3356
3357#ifdef __glibcxx_string_view201803L // >= C++17
3358 /**
3359 * @brief Find last position of a character not in a string_view.
3360 * @param __svt An object convertible to string_view containing
3361 * characters to avoid.
3362 * @param __pos Index of character to search back from (default end).
3363 * @return Index of last occurrence.
3364 */
3365 template<typename _Tp>
3366 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3367 _If_sv<_Tp, size_type>
3368 find_last_not_of(const _Tp& __svt, size_type __pos = npos) const
3369 noexcept(is_same<_Tp, __sv_type>::value)
3370 {
3371 __sv_type __sv = __svt;
3372 return this->find_last_not_of(__sv.data(), __pos, __sv.size());
3373 }
3374#endif // C++17
3375
3376 /**
3377 * @brief Find last position of a character not in C substring.
3378 * @param __s C string containing characters to avoid.
3379 * @param __pos Index of character to search back from.
3380 * @param __n Number of characters from s to consider.
3381 * @return Index of last occurrence.
3382 *
3383 * Starting from @a __pos, searches backward for a character not
3384 * contained in the first @a __n characters of @a __s within this string.
3385 * If found, returns the index where it was found. If not found,
3386 * returns npos.
3387 */
3388 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3389 size_type
3390 find_last_not_of(const _CharT* __s, size_type __pos,
3391 size_type __n) const _GLIBCXX_NOEXCEPTnoexcept;
3392 /**
3393 * @brief Find last position of a character not in C string.
3394 * @param __s C string containing characters to avoid.
3395 * @param __pos Index of character to search back from (default end).
3396 * @return Index of last occurrence.
3397 *
3398 * Starting from @a __pos, searches backward for a character
3399 * not contained in @a __s within this string. If found,
3400 * returns the index where it was found. If not found, returns
3401 * npos.
3402 */
3403 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3404 size_type
3405 find_last_not_of(const _CharT* __s, size_type __pos = npos) const
3406 _GLIBCXX_NOEXCEPTnoexcept
3407 {
3408 __glibcxx_requires_string(__s);
3409 return this->find_last_not_of(__s, __pos, traits_type::length(__s));
3410 }
3411
3412 /**
3413 * @brief Find last position of a different character.
3414 * @param __c Character to avoid.
3415 * @param __pos Index of character to search back from (default end).
3416 * @return Index of last occurrence.
3417 *
3418 * Starting from @a __pos, searches backward for a character other than
3419 * @a __c within this string. If found, returns the index where it was
3420 * found. If not found, returns npos.
3421 */
3422 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3423 size_type
3424 find_last_not_of(_CharT __c, size_type __pos = npos) const
3425 _GLIBCXX_NOEXCEPTnoexcept;
3426
3427 /**
3428 * @brief Get a substring.
3429 * @param __pos Index of first character (default 0).
3430 * @param __n Number of characters in substring (default remainder).
3431 * @return The new string.
3432 * @throw std::out_of_range If __pos > size().
3433 *
3434 * Construct and return a new string using the @a __n
3435 * characters starting at @a __pos. If the string is too
3436 * short, use the remainder of the characters. If @a __pos is
3437 * beyond the end of the string, out_of_range is thrown.
3438 */
3439 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3440 basic_string
3441 substr(size_type __pos = 0, size_type __n = npos) const
3442 { return basic_string(*this,
3443 _M_check(__pos, "basic_string::substr"), __n); }
3444
3445 /**
3446 * @brief Compare to a string.
3447 * @param __str String to compare against.
3448 * @return Integer < 0, 0, or > 0.
3449 *
3450 * Returns an integer < 0 if this string is ordered before @a
3451 * __str, 0 if their values are equivalent, or > 0 if this
3452 * string is ordered after @a __str. Determines the effective
3453 * length rlen of the strings to compare as the smallest of
3454 * size() and str.size(). The function then compares the two
3455 * strings by calling traits::compare(data(), str.data(),rlen).
3456 * If the result of the comparison is nonzero returns it,
3457 * otherwise the shorter one is ordered first.
3458 */
3459 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3460 int
3461 compare(const basic_string& __str) const
3462 {
3463 const size_type __size = this->size();
3464 const size_type __osize = __str.size();
3465 const size_type __len = std::min(__size, __osize);
3466
3467 int __r = traits_type::compare(_M_data(), __str.data(), __len);
3468 if (!__r)
3469 __r = _S_compare(__size, __osize);
3470 return __r;
3471 }
3472
3473#ifdef __glibcxx_string_view201803L // >= C++17
3474 /**
3475 * @brief Compare to a string_view.
3476 * @param __svt An object convertible to string_view to compare against.
3477 * @return Integer < 0, 0, or > 0.
3478 */
3479 template<typename _Tp>
3480 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3481 _If_sv<_Tp, int>
3482 compare(const _Tp& __svt) const
3483 noexcept(is_same<_Tp, __sv_type>::value)
3484 {
3485 __sv_type __sv = __svt;
3486 const size_type __size = this->size();
3487 const size_type __osize = __sv.size();
3488 const size_type __len = std::min(__size, __osize);
3489
3490 int __r = traits_type::compare(_M_data(), __sv.data(), __len);
3491 if (!__r)
3492 __r = _S_compare(__size, __osize);
3493 return __r;
3494 }
3495
3496 /**
3497 * @brief Compare to a string_view.
3498 * @param __pos A position in the string to start comparing from.
3499 * @param __n The number of characters to compare.
3500 * @param __svt An object convertible to string_view to compare
3501 * against.
3502 * @return Integer < 0, 0, or > 0.
3503 */
3504 template<typename _Tp>
3505 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3506 _If_sv<_Tp, int>
3507 compare(size_type __pos, size_type __n, const _Tp& __svt) const
3508 noexcept(is_same<_Tp, __sv_type>::value)
3509 {
3510 __sv_type __sv = __svt;
3511 return __sv_type(*this).substr(__pos, __n).compare(__sv);
3512 }
3513
3514 /**
3515 * @brief Compare to a string_view.
3516 * @param __pos1 A position in the string to start comparing from.
3517 * @param __n1 The number of characters to compare.
3518 * @param __svt An object convertible to string_view to compare
3519 * against.
3520 * @param __pos2 A position in the string_view to start comparing from.
3521 * @param __n2 The number of characters to compare.
3522 * @return Integer < 0, 0, or > 0.
3523 */
3524 template<typename _Tp>
3525 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3526 _If_sv<_Tp, int>
3527 compare(size_type __pos1, size_type __n1, const _Tp& __svt,
3528 size_type __pos2, size_type __n2 = npos) const
3529 noexcept(is_same<_Tp, __sv_type>::value)
3530 {
3531 __sv_type __sv = __svt;
3532 return __sv_type(*this)
3533 .substr(__pos1, __n1).compare(__sv.substr(__pos2, __n2));
3534 }
3535#endif // C++17
3536
3537 /**
3538 * @brief Compare substring to a string.
3539 * @param __pos Index of first character of substring.
3540 * @param __n Number of characters in substring.
3541 * @param __str String to compare against.
3542 * @return Integer < 0, 0, or > 0.
3543 *
3544 * Form the substring of this string from the @a __n characters
3545 * starting at @a __pos. Returns an integer < 0 if the
3546 * substring is ordered before @a __str, 0 if their values are
3547 * equivalent, or > 0 if the substring is ordered after @a
3548 * __str. Determines the effective length rlen of the strings
3549 * to compare as the smallest of the length of the substring
3550 * and @a __str.size(). The function then compares the two
3551 * strings by calling
3552 * traits::compare(substring.data(),str.data(),rlen). If the
3553 * result of the comparison is nonzero returns it, otherwise
3554 * the shorter one is ordered first.
3555 */
3556 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3557 int
3558 compare(size_type __pos, size_type __n, const basic_string& __str) const
3559 {
3560 _M_check(__pos, "basic_string::compare");
3561 __n = _M_limit(__pos, __n);
3562 const size_type __osize = __str.size();
3563 const size_type __len = std::min(__n, __osize);
3564 int __r = traits_type::compare(_M_data() + __pos, __str.data(), __len);
3565 if (!__r)
3566 __r = _S_compare(__n, __osize);
3567 return __r;
3568 }
3569
3570 /**
3571 * @brief Compare substring to a substring.
3572 * @param __pos1 Index of first character of substring.
3573 * @param __n1 Number of characters in substring.
3574 * @param __str String to compare against.
3575 * @param __pos2 Index of first character of substring of str.
3576 * @param __n2 Number of characters in substring of str.
3577 * @return Integer < 0, 0, or > 0.
3578 *
3579 * Form the substring of this string from the @a __n1
3580 * characters starting at @a __pos1. Form the substring of @a
3581 * __str from the @a __n2 characters starting at @a __pos2.
3582 * Returns an integer < 0 if this substring is ordered before
3583 * the substring of @a __str, 0 if their values are equivalent,
3584 * or > 0 if this substring is ordered after the substring of
3585 * @a __str. Determines the effective length rlen of the
3586 * strings to compare as the smallest of the lengths of the
3587 * substrings. The function then compares the two strings by
3588 * calling
3589 * traits::compare(substring.data(),str.substr(pos2,n2).data(),rlen).
3590 * If the result of the comparison is nonzero returns it,
3591 * otherwise the shorter one is ordered first.
3592 */
3593 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3594 int
3595 compare(size_type __pos1, size_type __n1, const basic_string& __str,
3596 size_type __pos2, size_type __n2 = npos) const
3597 {
3598 _M_check(__pos1, "basic_string::compare");
3599 __str._M_check(__pos2, "basic_string::compare");
3600 __n1 = _M_limit(__pos1, __n1);
3601 __n2 = __str._M_limit(__pos2, __n2);
3602 const size_type __len = std::min(__n1, __n2);
3603 int __r = traits_type::compare(_M_data() + __pos1,
3604 __str.data() + __pos2, __len);
3605 if (!__r)
3606 __r = _S_compare(__n1, __n2);
3607 return __r;
3608 }
3609
3610 /**
3611 * @brief Compare to a C string.
3612 * @param __s C string to compare against.
3613 * @return Integer < 0, 0, or > 0.
3614 *
3615 * Returns an integer < 0 if this string is ordered before @a __s, 0 if
3616 * their values are equivalent, or > 0 if this string is ordered after
3617 * @a __s. Determines the effective length rlen of the strings to
3618 * compare as the smallest of size() and the length of a string
3619 * constructed from @a __s. The function then compares the two strings
3620 * by calling traits::compare(data(),s,rlen). If the result of the
3621 * comparison is nonzero returns it, otherwise the shorter one is
3622 * ordered first.
3623 */
3624 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3625 int
3626 compare(const _CharT* __s) const _GLIBCXX_NOEXCEPTnoexcept
3627 {
3628 __glibcxx_requires_string(__s);
3629 const size_type __size = this->size();
3630 const size_type __osize = traits_type::length(__s);
3631 const size_type __len = std::min(__size, __osize);
3632 int __r = traits_type::compare(_M_data(), __s, __len);
3633 if (!__r)
3634 __r = _S_compare(__size, __osize);
3635 return __r;
3636 }
3637
3638 // _GLIBCXX_RESOLVE_LIB_DEFECTS
3639 // 5 String::compare specification questionable
3640 /**
3641 * @brief Compare substring to a C string.
3642 * @param __pos Index of first character of substring.
3643 * @param __n1 Number of characters in substring.
3644 * @param __s C string to compare against.
3645 * @return Integer < 0, 0, or > 0.
3646 *
3647 * Form the substring of this string from the @a __n1
3648 * characters starting at @a pos. Returns an integer < 0 if
3649 * the substring is ordered before @a __s, 0 if their values
3650 * are equivalent, or > 0 if the substring is ordered after @a
3651 * __s. Determines the effective length rlen of the strings to
3652 * compare as the smallest of the length of the substring and
3653 * the length of a string constructed from @a __s. The
3654 * function then compares the two string by calling
3655 * traits::compare(substring.data(),__s,rlen). If the result of
3656 * the comparison is nonzero returns it, otherwise the shorter
3657 * one is ordered first.
3658 */
3659 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3660 int
3661 compare(size_type __pos, size_type __n1, const _CharT* __s) const
3662 {
3663 __glibcxx_requires_string(__s);
3664 _M_check(__pos, "basic_string::compare");
3665 __n1 = _M_limit(__pos, __n1);
3666 const size_type __osize = traits_type::length(__s);
3667 const size_type __len = std::min(__n1, __osize);
3668 int __r = traits_type::compare(_M_data() + __pos, __s, __len);
3669 if (!__r)
3670 __r = _S_compare(__n1, __osize);
3671 return __r;
3672 }
3673
3674 /**
3675 * @brief Compare substring against a character %array.
3676 * @param __pos Index of first character of substring.
3677 * @param __n1 Number of characters in substring.
3678 * @param __s character %array to compare against.
3679 * @param __n2 Number of characters of s.
3680 * @return Integer < 0, 0, or > 0.
3681 *
3682 * Form the substring of this string from the @a __n1
3683 * characters starting at @a __pos. Form a string from the
3684 * first @a __n2 characters of @a __s. Returns an integer < 0
3685 * if this substring is ordered before the string from @a __s,
3686 * 0 if their values are equivalent, or > 0 if this substring
3687 * is ordered after the string from @a __s. Determines the
3688 * effective length rlen of the strings to compare as the
3689 * smallest of the length of the substring and @a __n2. The
3690 * function then compares the two strings by calling
3691 * traits::compare(substring.data(),s,rlen). If the result of
3692 * the comparison is nonzero returns it, otherwise the shorter
3693 * one is ordered first.
3694 *
3695 * NB: s must have at least n2 characters, &apos;\\0&apos; has
3696 * no special meaning.
3697 */
3698 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3699 int
3700 compare(size_type __pos, size_type __n1, const _CharT* __s,
3701 size_type __n2) const
3702 {
3703 __glibcxx_requires_string_len(__s, __n2);
3704 _M_check(__pos, "basic_string::compare");
3705 __n1 = _M_limit(__pos, __n1);
3706 const size_type __len = std::min(__n1, __n2);
3707 int __r = traits_type::compare(_M_data() + __pos, __s, __len);
3708 if (!__r)
3709 __r = _S_compare(__n1, __n2);
3710 return __r;
3711 }
3712
3713#if __cplusplus202002L >= 202002L
3714 [[nodiscard]]
3715 constexpr bool
3716 starts_with(basic_string_view<_CharT, _Traits> __x) const noexcept
3717 { return __sv_type(this->data(), this->size()).starts_with(__x); }
3718
3719 [[nodiscard]]
3720 constexpr bool
3721 starts_with(_CharT __x) const noexcept
3722 { return __sv_type(this->data(), this->size()).starts_with(__x); }
3723
3724 [[nodiscard, __gnu__::__nonnull__]]
3725 constexpr bool
3726 starts_with(const _CharT* __x) const noexcept
3727 { return __sv_type(this->data(), this->size()).starts_with(__x); }
3728
3729 [[nodiscard]]
3730 constexpr bool
3731 ends_with(basic_string_view<_CharT, _Traits> __x) const noexcept
3732 { return __sv_type(this->data(), this->size()).ends_with(__x); }
3733
3734 [[nodiscard]]
3735 constexpr bool
3736 ends_with(_CharT __x) const noexcept
3737 { return __sv_type(this->data(), this->size()).ends_with(__x); }
3738
3739 [[nodiscard, __gnu__::__nonnull__]]
3740 constexpr bool
3741 ends_with(const _CharT* __x) const noexcept
3742 { return __sv_type(this->data(), this->size()).ends_with(__x); }
3743#endif // C++20
3744
3745#if __cplusplus202002L > 202002L
3746 [[nodiscard]]
3747 constexpr bool
3748 contains(basic_string_view<_CharT, _Traits> __x) const noexcept
3749 { return __sv_type(this->data(), this->size()).contains(__x); }
3750
3751 [[nodiscard]]
3752 constexpr bool
3753 contains(_CharT __x) const noexcept
3754 { return __sv_type(this->data(), this->size()).contains(__x); }
3755
3756 [[nodiscard, __gnu__::__nonnull__]]
3757 constexpr bool
3758 contains(const _CharT* __x) const noexcept
3759 { return __sv_type(this->data(), this->size()).contains(__x); }
3760#endif // C++23
3761
3762 // Allow basic_stringbuf::__xfer_bufptrs to call _M_length:
3763 template<typename, typename, typename> friend class basic_stringbuf;
3764 };
3765_GLIBCXX_END_NAMESPACE_CXX11}
3766_GLIBCXX_END_NAMESPACE_VERSION
3767} // namespace std
3768#endif // _GLIBCXX_USE_CXX11_ABI
3769
3770namespace std _GLIBCXX_VISIBILITY(default)__attribute__ ((__visibility__ ("default")))
3771{
3772_GLIBCXX_BEGIN_NAMESPACE_VERSION
3773
3774#if __cpp_deduction_guides201703L >= 201606
3775_GLIBCXX_BEGIN_NAMESPACE_CXX11namespace __cxx11 {
3776 template<typename _InputIterator, typename _CharT
3777 = typename iterator_traits<_InputIterator>::value_type,
3778 typename _Allocator = allocator<_CharT>,
3779 typename = _RequireInputIter<_InputIterator>,
3780 typename = _RequireAllocator<_Allocator>>
3781 basic_string(_InputIterator, _InputIterator, _Allocator = _Allocator())
3782 -> basic_string<_CharT, char_traits<_CharT>, _Allocator>;
3783
3784 // _GLIBCXX_RESOLVE_LIB_DEFECTS
3785 // 3075. basic_string needs deduction guides from basic_string_view
3786 template<typename _CharT, typename _Traits,
3787 typename _Allocator = allocator<_CharT>,
3788 typename = _RequireAllocator<_Allocator>>
3789 basic_string(basic_string_view<_CharT, _Traits>, const _Allocator& = _Allocator())
3790 -> basic_string<_CharT, _Traits, _Allocator>;
3791
3792 template<typename _CharT, typename _Traits,
3793 typename _Allocator = allocator<_CharT>,
3794 typename = _RequireAllocator<_Allocator>>
3795 basic_string(basic_string_view<_CharT, _Traits>,
3796 typename basic_string<_CharT, _Traits, _Allocator>::size_type,
3797 typename basic_string<_CharT, _Traits, _Allocator>::size_type,
3798 const _Allocator& = _Allocator())
3799 -> basic_string<_CharT, _Traits, _Allocator>;
3800
3801#if __glibcxx_containers_ranges // C++ >= 23
3802 template<ranges::input_range _Rg,
3803 typename _Allocator = allocator<ranges::range_value_t<_Rg>>>
3804 basic_string(from_range_t, _Rg&&, _Allocator = _Allocator())
3805 -> basic_string<ranges::range_value_t<_Rg>,
3806 char_traits<ranges::range_value_t<_Rg>>,
3807 _Allocator>;
3808#endif
3809_GLIBCXX_END_NAMESPACE_CXX11}
3810#endif
3811
3812 template<typename _Str>
3813 _GLIBCXX20_CONSTEXPRconstexpr
3814 inline _Str
3815 __str_concat(typename _Str::value_type const* __lhs,
3816 typename _Str::size_type __lhs_len,
3817 typename _Str::value_type const* __rhs,
3818 typename _Str::size_type __rhs_len,
3819 typename _Str::allocator_type const& __a)
3820 {
3821 typedef typename _Str::allocator_type allocator_type;
3822 typedef __gnu_cxx::__alloc_traits<allocator_type> _Alloc_traits;
3823 _Str __str(_Alloc_traits::_S_select_on_copy(__a));
3824 __str.reserve(__lhs_len + __rhs_len);
3825 __str.append(__lhs, __lhs_len);
3826 __str.append(__rhs, __rhs_len);
3827 return __str;
3828 }
3829
3830 // operator+
3831 /**
3832 * @brief Concatenate two strings.
3833 * @param __lhs First string.
3834 * @param __rhs Last string.
3835 * @return New string with value of @a __lhs followed by @a __rhs.
3836 */
3837 template<typename _CharT, typename _Traits, typename _Alloc>
3838 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3839 inline basic_string<_CharT, _Traits, _Alloc>
3840 operator+(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
3841 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
3842 {
3843 typedef basic_string<_CharT, _Traits, _Alloc> _Str;
3844 return std::__str_concat<_Str>(__lhs.c_str(), __lhs.size(),
3845 __rhs.c_str(), __rhs.size(),
3846 __lhs.get_allocator());
3847 }
3848
3849 /**
3850 * @brief Concatenate C string and string.
3851 * @param __lhs First string.
3852 * @param __rhs Last string.
3853 * @return New string with value of @a __lhs followed by @a __rhs.
3854 */
3855 template<typename _CharT, typename _Traits, typename _Alloc>
3856 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3857 inline basic_string<_CharT,_Traits,_Alloc>
3858 operator+(const _CharT* __lhs,
3859 const basic_string<_CharT,_Traits,_Alloc>& __rhs)
3860 {
3861 __glibcxx_requires_string(__lhs);
3862 typedef basic_string<_CharT, _Traits, _Alloc> _Str;
3863 return std::__str_concat<_Str>(__lhs, _Traits::length(__lhs),
3864 __rhs.c_str(), __rhs.size(),
3865 __rhs.get_allocator());
3866 }
3867
3868 /**
3869 * @brief Concatenate character and string.
3870 * @param __lhs First string.
3871 * @param __rhs Last string.
3872 * @return New string with @a __lhs followed by @a __rhs.
3873 */
3874 template<typename _CharT, typename _Traits, typename _Alloc>
3875 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3876 inline basic_string<_CharT,_Traits,_Alloc>
3877 operator+(_CharT __lhs, const basic_string<_CharT,_Traits,_Alloc>& __rhs)
3878 {
3879 typedef basic_string<_CharT, _Traits, _Alloc> _Str;
3880 return std::__str_concat<_Str>(__builtin_addressof(__lhs), 1,
3881 __rhs.c_str(), __rhs.size(),
3882 __rhs.get_allocator());
3883 }
3884
3885 /**
3886 * @brief Concatenate string and C string.
3887 * @param __lhs First string.
3888 * @param __rhs Last string.
3889 * @return New string with @a __lhs followed by @a __rhs.
3890 */
3891 template<typename _CharT, typename _Traits, typename _Alloc>
3892 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3893 inline basic_string<_CharT, _Traits, _Alloc>
3894 operator+(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
3895 const _CharT* __rhs)
3896 {
3897 __glibcxx_requires_string(__rhs);
3898 typedef basic_string<_CharT, _Traits, _Alloc> _Str;
3899 return std::__str_concat<_Str>(__lhs.c_str(), __lhs.size(),
3900 __rhs, _Traits::length(__rhs),
3901 __lhs.get_allocator());
3902 }
3903 /**
3904 * @brief Concatenate string and character.
3905 * @param __lhs First string.
3906 * @param __rhs Last string.
3907 * @return New string with @a __lhs followed by @a __rhs.
3908 */
3909 template<typename _CharT, typename _Traits, typename _Alloc>
3910 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3911 inline basic_string<_CharT, _Traits, _Alloc>
3912 operator+(const basic_string<_CharT, _Traits, _Alloc>& __lhs, _CharT __rhs)
3913 {
3914 typedef basic_string<_CharT, _Traits, _Alloc> _Str;
3915 return std::__str_concat<_Str>(__lhs.c_str(), __lhs.size(),
3916 __builtin_addressof(__rhs), 1,
3917 __lhs.get_allocator());
3918 }
3919
3920#if __cplusplus202002L >= 201103L
3921 template<typename _CharT, typename _Traits, typename _Alloc>
3922 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3923 inline basic_string<_CharT, _Traits, _Alloc>
3924 operator+(basic_string<_CharT, _Traits, _Alloc>&& __lhs,
3925 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
3926 { return std::move(__lhs.append(__rhs)); }
3927
3928 template<typename _CharT, typename _Traits, typename _Alloc>
3929 _GLIBCXX20_CONSTEXPRconstexpr
3930 inline basic_string<_CharT, _Traits, _Alloc>
3931 operator+(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
3932 basic_string<_CharT, _Traits, _Alloc>&& __rhs)
3933 { return std::move(__rhs.insert(0, __lhs)); }
3934
3935 template<typename _CharT, typename _Traits, typename _Alloc>
3936 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3937 inline basic_string<_CharT, _Traits, _Alloc>
3938 operator+(basic_string<_CharT, _Traits, _Alloc>&& __lhs,
3939 basic_string<_CharT, _Traits, _Alloc>&& __rhs)
3940 {
3941#if _GLIBCXX_USE_CXX11_ABI1
3942 using _Alloc_traits = allocator_traits<_Alloc>;
3943 bool __use_rhs = false;
3944 if _GLIBCXX17_CONSTEXPRconstexpr (typename _Alloc_traits::is_always_equal{})
3945 __use_rhs = true;
3946 else if (__lhs.get_allocator() == __rhs.get_allocator())
3947 __use_rhs = true;
3948 if (__use_rhs)
3949#endif
3950 {
3951 const auto __size = __lhs.size() + __rhs.size();
3952 if (__size > __lhs.capacity() && __size <= __rhs.capacity())
3953 return std::move(__rhs.insert(0, __lhs));
3954 }
3955 return std::move(__lhs.append(__rhs));
3956 }
3957
3958 template<typename _CharT, typename _Traits, typename _Alloc>
3959 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3960 inline basic_string<_CharT, _Traits, _Alloc>
3961 operator+(const _CharT* __lhs,
3962 basic_string<_CharT, _Traits, _Alloc>&& __rhs)
3963 { return std::move(__rhs.insert(0, __lhs)); }
3964
3965 template<typename _CharT, typename _Traits, typename _Alloc>
3966 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3967 inline basic_string<_CharT, _Traits, _Alloc>
3968 operator+(_CharT __lhs,
3969 basic_string<_CharT, _Traits, _Alloc>&& __rhs)
3970 { return std::move(__rhs.insert(0, 1, __lhs)); }
3971
3972 template<typename _CharT, typename _Traits, typename _Alloc>
3973 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3974 inline basic_string<_CharT, _Traits, _Alloc>
3975 operator+(basic_string<_CharT, _Traits, _Alloc>&& __lhs,
3976 const _CharT* __rhs)
3977 { return std::move(__lhs.append(__rhs)); }
3978
3979 template<typename _CharT, typename _Traits, typename _Alloc>
3980 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
3981 inline basic_string<_CharT, _Traits, _Alloc>
3982 operator+(basic_string<_CharT, _Traits, _Alloc>&& __lhs,
3983 _CharT __rhs)
3984 { return std::move(__lhs.append(1, __rhs)); }
3985#endif
3986
3987#if __glibcxx_string_view201803L >= 202403L
3988 // const string & + string_view
3989 template<typename _CharT, typename _Traits, typename _Alloc>
3990 [[nodiscard]]
3991 constexpr basic_string<_CharT, _Traits, _Alloc>
3992 operator+(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
3993 type_identity_t<basic_string_view<_CharT, _Traits>> __rhs)
3994 {
3995 using _Str = basic_string<_CharT, _Traits, _Alloc>;
3996 return std::__str_concat<_Str>(__lhs.data(), __lhs.size(),
3997 __rhs.data(), __rhs.size(),
3998 __lhs.get_allocator());
3999 }
4000
4001 // string && + string_view
4002 template<typename _CharT, typename _Traits, typename _Alloc>
4003 [[nodiscard]]
4004 constexpr basic_string<_CharT, _Traits, _Alloc>
4005 operator+(basic_string<_CharT, _Traits, _Alloc>&& __lhs,
4006 type_identity_t<basic_string_view<_CharT, _Traits>> __rhs)
4007 {
4008 return std::move(__lhs.append(__rhs));
4009 }
4010
4011 // string_view + const string &
4012 template<typename _CharT, typename _Traits, typename _Alloc>
4013 [[nodiscard]]
4014 constexpr basic_string<_CharT, _Traits, _Alloc>
4015 operator+(type_identity_t<basic_string_view<_CharT, _Traits>> __lhs,
4016 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4017 {
4018 using _Str = basic_string<_CharT, _Traits, _Alloc>;
4019 return std::__str_concat<_Str>(__lhs.data(), __lhs.size(),
4020 __rhs.data(), __rhs.size(),
4021 __rhs.get_allocator());
4022 }
4023
4024 // string_view + string &&
4025 template<typename _CharT, typename _Traits, typename _Alloc>
4026 [[nodiscard]]
4027 constexpr basic_string<_CharT, _Traits, _Alloc>
4028 operator+(type_identity_t<basic_string_view<_CharT, _Traits>> __lhs,
4029 basic_string<_CharT, _Traits, _Alloc>&& __rhs)
4030 {
4031 return std::move(__rhs.insert(0, __lhs));
4032 }
4033#endif
4034
4035 // operator ==
4036 /**
4037 * @brief Test equivalence of two strings.
4038 * @param __lhs First string.
4039 * @param __rhs Second string.
4040 * @return True if @a __lhs.compare(@a __rhs) == 0. False otherwise.
4041 */
4042 template<typename _CharT, typename _Traits, typename _Alloc>
4043 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
4044 inline bool
4045 operator==(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4046 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4047 _GLIBCXX_NOEXCEPTnoexcept
4048 {
4049 return __lhs.size() == __rhs.size()
4050 && !_Traits::compare(__lhs.data(), __rhs.data(), __lhs.size());
4051 }
4052
4053 /**
4054 * @brief Test equivalence of string and C string.
4055 * @param __lhs String.
4056 * @param __rhs C string.
4057 * @return True if @a __lhs.compare(@a __rhs) == 0. False otherwise.
4058 */
4059 template<typename _CharT, typename _Traits, typename _Alloc>
4060 _GLIBCXX_NODISCARD[[__nodiscard__]] _GLIBCXX20_CONSTEXPRconstexpr
4061 inline bool
4062 operator==(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4063 const _CharT* __rhs)
4064 {
4065 return __lhs.size() == _Traits::length(__rhs)
4066 && !_Traits::compare(__lhs.data(), __rhs, __lhs.size());
4067 }
4068
4069#if __cpp_lib_three_way_comparison201907L
4070 /**
4071 * @brief Three-way comparison of a string and a C string.
4072 * @param __lhs A string.
4073 * @param __rhs A null-terminated string.
4074 * @return A value indicating whether `__lhs` is less than, equal to,
4075 * greater than, or incomparable with `__rhs`.
4076 */
4077 template<typename _CharT, typename _Traits, typename _Alloc>
4078 [[nodiscard]]
4079 constexpr auto
4080 operator<=>(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4081 const basic_string<_CharT, _Traits, _Alloc>& __rhs) noexcept
4082 -> decltype(__detail::__char_traits_cmp_cat<_Traits>(0))
4083 { return __detail::__char_traits_cmp_cat<_Traits>(__lhs.compare(__rhs)); }
4084
4085 /**
4086 * @brief Three-way comparison of a string and a C string.
4087 * @param __lhs A string.
4088 * @param __rhs A null-terminated string.
4089 * @return A value indicating whether `__lhs` is less than, equal to,
4090 * greater than, or incomparable with `__rhs`.
4091 */
4092 template<typename _CharT, typename _Traits, typename _Alloc>
4093 [[nodiscard]]
4094 constexpr auto
4095 operator<=>(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4096 const _CharT* __rhs) noexcept
4097 -> decltype(__detail::__char_traits_cmp_cat<_Traits>(0))
4098 { return __detail::__char_traits_cmp_cat<_Traits>(__lhs.compare(__rhs)); }
4099#else
4100 /**
4101 * @brief Test equivalence of C string and string.
4102 * @param __lhs C string.
4103 * @param __rhs String.
4104 * @return True if @a __rhs.compare(@a __lhs) == 0. False otherwise.
4105 */
4106 template<typename _CharT, typename _Traits, typename _Alloc>
4107 _GLIBCXX_NODISCARD[[__nodiscard__]]
4108 inline bool
4109 operator==(const _CharT* __lhs,
4110 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4111 { return __rhs == __lhs; }
4112
4113 // operator !=
4114 /**
4115 * @brief Test difference of two strings.
4116 * @param __lhs First string.
4117 * @param __rhs Second string.
4118 * @return True if @a __lhs.compare(@a __rhs) != 0. False otherwise.
4119 */
4120 template<typename _CharT, typename _Traits, typename _Alloc>
4121 _GLIBCXX_NODISCARD[[__nodiscard__]]
4122 inline bool
4123 operator!=(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4124 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4125 _GLIBCXX_NOEXCEPTnoexcept
4126 { return !(__lhs == __rhs); }
4127
4128 /**
4129 * @brief Test difference of C string and string.
4130 * @param __lhs C string.
4131 * @param __rhs String.
4132 * @return True if @a __rhs.compare(@a __lhs) != 0. False otherwise.
4133 */
4134 template<typename _CharT, typename _Traits, typename _Alloc>
4135 _GLIBCXX_NODISCARD[[__nodiscard__]]
4136 inline bool
4137 operator!=(const _CharT* __lhs,
4138 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4139 { return !(__rhs == __lhs); }
4140
4141 /**
4142 * @brief Test difference of string and C string.
4143 * @param __lhs String.
4144 * @param __rhs C string.
4145 * @return True if @a __lhs.compare(@a __rhs) != 0. False otherwise.
4146 */
4147 template<typename _CharT, typename _Traits, typename _Alloc>
4148 _GLIBCXX_NODISCARD[[__nodiscard__]]
4149 inline bool
4150 operator!=(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4151 const _CharT* __rhs)
4152 { return !(__lhs == __rhs); }
4153
4154 // operator <
4155 /**
4156 * @brief Test if string precedes string.
4157 * @param __lhs First string.
4158 * @param __rhs Second string.
4159 * @return True if @a __lhs precedes @a __rhs. False otherwise.
4160 */
4161 template<typename _CharT, typename _Traits, typename _Alloc>
4162 _GLIBCXX_NODISCARD[[__nodiscard__]]
4163 inline bool
4164 operator<(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4165 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4166 _GLIBCXX_NOEXCEPTnoexcept
4167 { return __lhs.compare(__rhs) < 0; }
4168
4169 /**
4170 * @brief Test if string precedes C string.
4171 * @param __lhs String.
4172 * @param __rhs C string.
4173 * @return True if @a __lhs precedes @a __rhs. False otherwise.
4174 */
4175 template<typename _CharT, typename _Traits, typename _Alloc>
4176 _GLIBCXX_NODISCARD[[__nodiscard__]]
4177 inline bool
4178 operator<(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4179 const _CharT* __rhs)
4180 { return __lhs.compare(__rhs) < 0; }
4181
4182 /**
4183 * @brief Test if C string precedes string.
4184 * @param __lhs C string.
4185 * @param __rhs String.
4186 * @return True if @a __lhs precedes @a __rhs. False otherwise.
4187 */
4188 template<typename _CharT, typename _Traits, typename _Alloc>
4189 _GLIBCXX_NODISCARD[[__nodiscard__]]
4190 inline bool
4191 operator<(const _CharT* __lhs,
4192 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4193 { return __rhs.compare(__lhs) > 0; }
4194
4195 // operator >
4196 /**
4197 * @brief Test if string follows string.
4198 * @param __lhs First string.
4199 * @param __rhs Second string.
4200 * @return True if @a __lhs follows @a __rhs. False otherwise.
4201 */
4202 template<typename _CharT, typename _Traits, typename _Alloc>
4203 _GLIBCXX_NODISCARD[[__nodiscard__]]
4204 inline bool
4205 operator>(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4206 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4207 _GLIBCXX_NOEXCEPTnoexcept
4208 { return __lhs.compare(__rhs) > 0; }
4209
4210 /**
4211 * @brief Test if string follows C string.
4212 * @param __lhs String.
4213 * @param __rhs C string.
4214 * @return True if @a __lhs follows @a __rhs. False otherwise.
4215 */
4216 template<typename _CharT, typename _Traits, typename _Alloc>
4217 _GLIBCXX_NODISCARD[[__nodiscard__]]
4218 inline bool
4219 operator>(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4220 const _CharT* __rhs)
4221 { return __lhs.compare(__rhs) > 0; }
4222
4223 /**
4224 * @brief Test if C string follows string.
4225 * @param __lhs C string.
4226 * @param __rhs String.
4227 * @return True if @a __lhs follows @a __rhs. False otherwise.
4228 */
4229 template<typename _CharT, typename _Traits, typename _Alloc>
4230 _GLIBCXX_NODISCARD[[__nodiscard__]]
4231 inline bool
4232 operator>(const _CharT* __lhs,
4233 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4234 { return __rhs.compare(__lhs) < 0; }
4235
4236 // operator <=
4237 /**
4238 * @brief Test if string doesn't follow string.
4239 * @param __lhs First string.
4240 * @param __rhs Second string.
4241 * @return True if @a __lhs doesn't follow @a __rhs. False otherwise.
4242 */
4243 template<typename _CharT, typename _Traits, typename _Alloc>
4244 _GLIBCXX_NODISCARD[[__nodiscard__]]
4245 inline bool
4246 operator<=(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4247 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4248 _GLIBCXX_NOEXCEPTnoexcept
4249 { return __lhs.compare(__rhs) <= 0; }
4250
4251 /**
4252 * @brief Test if string doesn't follow C string.
4253 * @param __lhs String.
4254 * @param __rhs C string.
4255 * @return True if @a __lhs doesn't follow @a __rhs. False otherwise.
4256 */
4257 template<typename _CharT, typename _Traits, typename _Alloc>
4258 _GLIBCXX_NODISCARD[[__nodiscard__]]
4259 inline bool
4260 operator<=(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4261 const _CharT* __rhs)
4262 { return __lhs.compare(__rhs) <= 0; }
4263
4264 /**
4265 * @brief Test if C string doesn't follow string.
4266 * @param __lhs C string.
4267 * @param __rhs String.
4268 * @return True if @a __lhs doesn't follow @a __rhs. False otherwise.
4269 */
4270 template<typename _CharT, typename _Traits, typename _Alloc>
4271 _GLIBCXX_NODISCARD[[__nodiscard__]]
4272 inline bool
4273 operator<=(const _CharT* __lhs,
4274 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4275 { return __rhs.compare(__lhs) >= 0; }
4276
4277 // operator >=
4278 /**
4279 * @brief Test if string doesn't precede string.
4280 * @param __lhs First string.
4281 * @param __rhs Second string.
4282 * @return True if @a __lhs doesn't precede @a __rhs. False otherwise.
4283 */
4284 template<typename _CharT, typename _Traits, typename _Alloc>
4285 _GLIBCXX_NODISCARD[[__nodiscard__]]
4286 inline bool
4287 operator>=(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4288 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4289 _GLIBCXX_NOEXCEPTnoexcept
4290 { return __lhs.compare(__rhs) >= 0; }
4291
4292 /**
4293 * @brief Test if string doesn't precede C string.
4294 * @param __lhs String.
4295 * @param __rhs C string.
4296 * @return True if @a __lhs doesn't precede @a __rhs. False otherwise.
4297 */
4298 template<typename _CharT, typename _Traits, typename _Alloc>
4299 _GLIBCXX_NODISCARD[[__nodiscard__]]
4300 inline bool
4301 operator>=(const basic_string<_CharT, _Traits, _Alloc>& __lhs,
4302 const _CharT* __rhs)
4303 { return __lhs.compare(__rhs) >= 0; }
4304
4305 /**
4306 * @brief Test if C string doesn't precede string.
4307 * @param __lhs C string.
4308 * @param __rhs String.
4309 * @return True if @a __lhs doesn't precede @a __rhs. False otherwise.
4310 */
4311 template<typename _CharT, typename _Traits, typename _Alloc>
4312 _GLIBCXX_NODISCARD[[__nodiscard__]]
4313 inline bool
4314 operator>=(const _CharT* __lhs,
4315 const basic_string<_CharT, _Traits, _Alloc>& __rhs)
4316 { return __rhs.compare(__lhs) <= 0; }
4317#endif // three-way comparison
4318
4319 /**
4320 * @brief Swap contents of two strings.
4321 * @param __lhs First string.
4322 * @param __rhs Second string.
4323 *
4324 * Exchanges the contents of @a __lhs and @a __rhs in constant time.
4325 */
4326 template<typename _CharT, typename _Traits, typename _Alloc>
4327 _GLIBCXX20_CONSTEXPRconstexpr
4328 inline void
4329 swap(basic_string<_CharT, _Traits, _Alloc>& __lhs,
4330 basic_string<_CharT, _Traits, _Alloc>& __rhs)
4331 _GLIBCXX_NOEXCEPT_IF(noexcept(__lhs.swap(__rhs)))noexcept(noexcept(__lhs.swap(__rhs)))
4332 { __lhs.swap(__rhs); }
4333
4334
4335 /**
4336 * @brief Read stream into a string.
4337 * @param __is Input stream.
4338 * @param __str Buffer to store into.
4339 * @return Reference to the input stream.
4340 *
4341 * Stores characters from @a __is into @a __str until whitespace is
4342 * found, the end of the stream is encountered, or str.max_size()
4343 * is reached. If is.width() is non-zero, that is the limit on the
4344 * number of characters stored into @a __str. Any previous
4345 * contents of @a __str are erased.
4346 */
4347 template<typename _CharT, typename _Traits, typename _Alloc>
4348 basic_istream<_CharT, _Traits>&
4349 operator>>(basic_istream<_CharT, _Traits>& __is,
4350 basic_string<_CharT, _Traits, _Alloc>& __str);
4351
4352 template<>
4353 basic_istream<char>&
4354 operator>>(basic_istream<char>& __is, basic_string<char>& __str);
4355
4356 /**
4357 * @brief Write string to a stream.
4358 * @param __os Output stream.
4359 * @param __str String to write out.
4360 * @return Reference to the output stream.
4361 *
4362 * Output characters of @a __str into os following the same rules as for
4363 * writing a C string.
4364 */
4365 template<typename _CharT, typename _Traits, typename _Alloc>
4366 inline basic_ostream<_CharT, _Traits>&
4367 operator<<(basic_ostream<_CharT, _Traits>& __os,
4368 const basic_string<_CharT, _Traits, _Alloc>& __str)
4369 {
4370 // _GLIBCXX_RESOLVE_LIB_DEFECTS
4371 // 586. string inserter not a formatted function
4372 return __ostream_insert(__os, __str.data(), __str.size());
4373 }
4374
4375 /**
4376 * @brief Read a line from stream into a string.
4377 * @param __is Input stream.
4378 * @param __str Buffer to store into.
4379 * @param __delim Character marking end of line.
4380 * @return Reference to the input stream.
4381 *
4382 * Stores characters from @a __is into @a __str until @a __delim is
4383 * found, the end of the stream is encountered, or str.max_size()
4384 * is reached. Any previous contents of @a __str are erased. If
4385 * @a __delim is encountered, it is extracted but not stored into
4386 * @a __str.
4387 */
4388 template<typename _CharT, typename _Traits, typename _Alloc>
4389 basic_istream<_CharT, _Traits>&
4390 getline(basic_istream<_CharT, _Traits>& __is,
4391 basic_string<_CharT, _Traits, _Alloc>& __str, _CharT __delim);
4392
4393 /**
4394 * @brief Read a line from stream into a string.
4395 * @param __is Input stream.
4396 * @param __str Buffer to store into.
4397 * @return Reference to the input stream.
4398 *
4399 * Stores characters from is into @a __str until &apos;\n&apos; is
4400 * found, the end of the stream is encountered, or str.max_size()
4401 * is reached. Any previous contents of @a __str are erased. If
4402 * end of line is encountered, it is extracted but not stored into
4403 * @a __str.
4404 */
4405 template<typename _CharT, typename _Traits, typename _Alloc>
4406 inline basic_istream<_CharT, _Traits>&
4407 getline(basic_istream<_CharT, _Traits>& __is,
4408 basic_string<_CharT, _Traits, _Alloc>& __str)
4409 { return std::getline(__is, __str, __is.widen('\n')); }
4410
4411#if __cplusplus202002L >= 201103L
4412 /// Read a line from an rvalue stream into a string.
4413 template<typename _CharT, typename _Traits, typename _Alloc>
4414 inline basic_istream<_CharT, _Traits>&
4415 getline(basic_istream<_CharT, _Traits>&& __is,
4416 basic_string<_CharT, _Traits, _Alloc>& __str, _CharT __delim)
4417 { return std::getline(__is, __str, __delim); }
4418
4419 /// Read a line from an rvalue stream into a string.
4420 template<typename _CharT, typename _Traits, typename _Alloc>
4421 inline basic_istream<_CharT, _Traits>&
4422 getline(basic_istream<_CharT, _Traits>&& __is,
4423 basic_string<_CharT, _Traits, _Alloc>& __str)
4424 { return std::getline(__is, __str); }
4425#endif
4426
4427 template<>
4428 basic_istream<char>&
4429 getline(basic_istream<char>& __in, basic_string<char>& __str,
4430 char __delim);
4431
4432#ifdef _GLIBCXX_USE_WCHAR_T1
4433 template<>
4434 basic_istream<wchar_t>&
4435 getline(basic_istream<wchar_t>& __in, basic_string<wchar_t>& __str,
4436 wchar_t __delim);
4437#endif
4438
4439_GLIBCXX_END_NAMESPACE_VERSION
4440} // namespace
4441
4442#if __cplusplus202002L >= 201103L
4443
4444#include <ext/string_conversions.h>
4445#include <bits/charconv.h>
4446
4447namespace std _GLIBCXX_VISIBILITY(default)__attribute__ ((__visibility__ ("default")))
4448{
4449_GLIBCXX_BEGIN_NAMESPACE_VERSION
4450_GLIBCXX_BEGIN_NAMESPACE_CXX11namespace __cxx11 {
4451
4452 // 21.4 Numeric Conversions [string.conversions].
4453 inline int
4454 stoi(const string& __str, size_t* __idx = 0, int __base = 10)
4455 { return __gnu_cxx::__stoa<long, int>(&std::strtol, "stoi", __str.c_str(),
4456 __idx, __base); }
4457
4458 inline long
4459 stol(const string& __str, size_t* __idx = 0, int __base = 10)
4460 { return __gnu_cxx::__stoa(&std::strtol, "stol", __str.c_str(),
4461 __idx, __base); }
4462
4463 inline unsigned long
4464 stoul(const string& __str, size_t* __idx = 0, int __base = 10)
4465 { return __gnu_cxx::__stoa(&std::strtoul, "stoul", __str.c_str(),
4466 __idx, __base); }
4467
4468#if _GLIBCXX_USE_C99_STDLIB1
4469 inline long long
4470 stoll(const string& __str, size_t* __idx = 0, int __base = 10)
4471 { return __gnu_cxx::__stoa(&std::strtoll, "stoll", __str.c_str(),
4472 __idx, __base); }
4473
4474 inline unsigned long long
4475 stoull(const string& __str, size_t* __idx = 0, int __base = 10)
4476 { return __gnu_cxx::__stoa(&std::strtoull, "stoull", __str.c_str(),
4477 __idx, __base); }
4478#elif __LONG_WIDTH__64 == __LONG_LONG_WIDTH__
4479 inline long long
4480 stoll(const string& __str, size_t* __idx = 0, int __base = 10)
4481 { return std::stol(__str, __idx, __base); }
4482
4483 inline unsigned long long
4484 stoull(const string& __str, size_t* __idx = 0, int __base = 10)
4485 { return std::stoul(__str, __idx, __base); }
4486#endif
4487
4488 inline double
4489 stod(const string& __str, size_t* __idx = 0)
4490 { return __gnu_cxx::__stoa(&std::strtod, "stod", __str.c_str(), __idx); }
4491
4492#if _GLIBCXX_HAVE_STRTOF1
4493 // NB: strtof vs strtod.
4494 inline float
4495 stof(const string& __str, size_t* __idx = 0)
4496 { return __gnu_cxx::__stoa(&std::strtof, "stof", __str.c_str(), __idx); }
4497#else
4498 inline float
4499 stof(const string& __str, size_t* __idx = 0)
4500 {
4501 double __d = std::stod(__str, __idx);
4502 if (__builtin_isfinite(__d) && __d != 0.0)
4503 {
4504 double __abs_d = __builtin_fabs(__d);
4505 if (__abs_d < __FLT_MIN__1.17549435e-38F || __abs_d > __FLT_MAX__3.40282347e+38F)
4506 {
4507 errno(*__errno_location ()) = ERANGE34;
4508 std::__throw_out_of_range("stof");
4509 }
4510 }
4511 return __d;
4512 }
4513#endif
4514
4515#if _GLIBCXX_HAVE_STRTOLD1 && ! _GLIBCXX_HAVE_BROKEN_STRTOLD
4516 inline long double
4517 stold(const string& __str, size_t* __idx = 0)
4518 { return __gnu_cxx::__stoa(&std::strtold, "stold", __str.c_str(), __idx); }
4519#elif __DBL_MANT_DIG__53 == __LDBL_MANT_DIG__64
4520 inline long double
4521 stold(const string& __str, size_t* __idx = 0)
4522 { return std::stod(__str, __idx); }
4523#endif
4524
4525 // _GLIBCXX_RESOLVE_LIB_DEFECTS
4526 // DR 1261. Insufficent overloads for to_string / to_wstring
4527
4528 _GLIBCXX_NODISCARD[[__nodiscard__]]
4529 inline string
4530 to_string(int __val)
4531#if _GLIBCXX_USE_CXX11_ABI1 && (__CHAR_BIT__8 * __SIZEOF_INT__4) <= 32
4532 noexcept // any 32-bit value fits in the SSO buffer
4533#endif
4534 {
4535 const bool __neg = __val < 0;
4536 const unsigned __uval = __neg ? (unsigned)~__val + 1u : __val;
4537 const auto __len = __detail::__to_chars_len(__uval);
4538 string __str;
4539 __str.__resize_and_overwrite(__neg + __len, [=](char* __p, size_t __n) {
4540 __p[0] = '-';
4541 __detail::__to_chars_10_impl(__p + (int)__neg, __len, __uval);
4542 return __n;
4543 });
4544 return __str;
4545 }
4546
4547 _GLIBCXX_NODISCARD[[__nodiscard__]]
4548 inline string
4549 to_string(unsigned __val)
4550#if _GLIBCXX_USE_CXX11_ABI1 && (__CHAR_BIT__8 * __SIZEOF_INT__4) <= 32
4551 noexcept // any 32-bit value fits in the SSO buffer
4552#endif
4553 {
4554 const auto __len = __detail::__to_chars_len(__val);
4555 string __str;
4556 __str.__resize_and_overwrite(__len, [__val](char* __p, size_t __n) {
4557 __detail::__to_chars_10_impl(__p, __n, __val);
4558 return __n;
4559 });
4560 return __str;
4561 }
4562
4563 _GLIBCXX_NODISCARD[[__nodiscard__]]
4564 inline string
4565 to_string(long __val)
4566#if _GLIBCXX_USE_CXX11_ABI1 && (__CHAR_BIT__8 * __SIZEOF_LONG__8) <= 32
4567 noexcept // any 32-bit value fits in the SSO buffer
4568#endif
4569 {
4570 const bool __neg = __val < 0;
4571 const unsigned long __uval = __neg ? (unsigned long)~__val + 1ul : __val;
4572 const auto __len = __detail::__to_chars_len(__uval);
4573 string __str;
4574 __str.__resize_and_overwrite(__neg + __len, [=](char* __p, size_t __n) {
4575 __p[0] = '-';
4576 __detail::__to_chars_10_impl(__p + (int)__neg, __len, __uval);
4577 return __n;
4578 });
4579 return __str;
4580 }
4581
4582 _GLIBCXX_NODISCARD[[__nodiscard__]]
4583 inline string
4584 to_string(unsigned long __val)
4585#if _GLIBCXX_USE_CXX11_ABI1 && (__CHAR_BIT__8 * __SIZEOF_LONG__8) <= 32
4586 noexcept // any 32-bit value fits in the SSO buffer
4587#endif
4588 {
4589 const auto __len = __detail::__to_chars_len(__val);
4590 string __str;
4591 __str.__resize_and_overwrite(__len, [__val](char* __p, size_t __n) {
4592 __detail::__to_chars_10_impl(__p, __n, __val);
4593 return __n;
4594 });
4595 return __str;
4596 }
4597
4598 _GLIBCXX_NODISCARD[[__nodiscard__]]
4599 inline string
4600 to_string(long long __val)
4601 {
4602 const bool __neg = __val < 0;
4603 const unsigned long long __uval
4604 = __neg ? (unsigned long long)~__val + 1ull : __val;
4605 const auto __len = __detail::__to_chars_len(__uval);
4606 string __str;
4607 __str.__resize_and_overwrite(__neg + __len, [=](char* __p, size_t __n) {
4608 __p[0] = '-';
4609 __detail::__to_chars_10_impl(__p + (int)__neg, __len, __uval);
4610 return __n;
4611 });
4612 return __str;
4613 }
4614
4615 _GLIBCXX_NODISCARD[[__nodiscard__]]
4616 inline string
4617 to_string(unsigned long long __val)
4618 {
4619 const auto __len = __detail::__to_chars_len(__val);
4620 string __str;
4621 __str.__resize_and_overwrite(__len, [__val](char* __p, size_t __n) {
4622 __detail::__to_chars_10_impl(__p, __n, __val);
4623 return __n;
4624 });
4625 return __str;
4626 }
4627
4628#if __glibcxx_to_string >= 202306L // C++ >= 26
4629
4630 [[nodiscard]]
4631 inline string
4632 to_string(float __val)
4633 {
4634 string __str;
4635 size_t __len = 15;
4636 do {
4637 __str.resize_and_overwrite(__len,
4638 [__val, &__len] (char* __p, size_t __n) {
4639 auto [__end, __err] = std::to_chars(__p, __p + __n, __val);
4640 if (__err == errc{}) [[likely]]
4641 return __end - __p;
4642 __len *= 2;
4643 return __p - __p;;
4644 });
4645 } while (__str.empty());
4646 return __str;
4647 }
4648
4649 [[nodiscard]]
4650 inline string
4651 to_string(double __val)
4652 {
4653 string __str;
4654 size_t __len = 15;
4655 do {
4656 __str.resize_and_overwrite(__len,
4657 [__val, &__len] (char* __p, size_t __n) {
4658 auto [__end, __err] = std::to_chars(__p, __p + __n, __val);
4659 if (__err == errc{}) [[likely]]
4660 return __end - __p;
4661 __len *= 2;
4662 return __p - __p;;
4663 });
4664 } while (__str.empty());
4665 return __str;
4666 }
4667
4668 [[nodiscard]]
4669 inline string
4670 to_string(long double __val)
4671 {
4672 string __str;
4673 size_t __len = 15;
4674 do {
4675 __str.resize_and_overwrite(__len,
4676 [__val, &__len] (char* __p, size_t __n) {
4677 auto [__end, __err] = std::to_chars(__p, __p + __n, __val);
4678 if (__err == errc{}) [[likely]]
4679 return __end - __p;
4680 __len *= 2;
4681 return __p - __p;;
4682 });
4683 } while (__str.empty());
4684 return __str;
4685 }
4686#elif _GLIBCXX_USE_C99_STDIO1
4687#pragma GCC diagnostic push
4688#pragma GCC diagnostic ignored "-Wsuggest-attribute=format"
4689 // NB: (v)snprintf vs sprintf.
4690
4691 _GLIBCXX_NODISCARD[[__nodiscard__]]
4692 inline string
4693 to_string(float __val)
4694 {
4695 const int __n =
4696 __gnu_cxx::__numeric_traits<float>::__max_exponent10 + 20;
4697 return __gnu_cxx::__to_xstring<string>(&std::vsnprintf, __n,
4698 "%f", __val);
4699 }
4700
4701 _GLIBCXX_NODISCARD[[__nodiscard__]]
4702 inline string
4703 to_string(double __val)
4704 {
4705 const int __n =
4706 __gnu_cxx::__numeric_traits<double>::__max_exponent10 + 20;
4707 return __gnu_cxx::__to_xstring<string>(&std::vsnprintf, __n,
4708 "%f", __val);
4709 }
4710
4711 _GLIBCXX_NODISCARD[[__nodiscard__]]
4712 inline string
4713 to_string(long double __val)
4714 {
4715 const int __n =
4716 __gnu_cxx::__numeric_traits<long double>::__max_exponent10 + 20;
4717 return __gnu_cxx::__to_xstring<string>(&std::vsnprintf, __n,
4718 "%Lf", __val);
4719 }
4720#pragma GCC diagnostic pop
4721#endif // _GLIBCXX_USE_C99_STDIO
4722
4723#if defined(_GLIBCXX_USE_WCHAR_T1) && _GLIBCXX_USE_C99_WCHAR1
4724 inline int
4725 stoi(const wstring& __str, size_t* __idx = 0, int __base = 10)
4726 { return __gnu_cxx::__stoa<long, int>(&std::wcstol, "stoi", __str.c_str(),
4727 __idx, __base); }
4728
4729 inline long
4730 stol(const wstring& __str, size_t* __idx = 0, int __base = 10)
4731 { return __gnu_cxx::__stoa(&std::wcstol, "stol", __str.c_str(),
4732 __idx, __base); }
4733
4734 inline unsigned long
4735 stoul(const wstring& __str, size_t* __idx = 0, int __base = 10)
4736 { return __gnu_cxx::__stoa(&std::wcstoul, "stoul", __str.c_str(),
4737 __idx, __base); }
4738
4739 inline long long
4740 stoll(const wstring& __str, size_t* __idx = 0, int __base = 10)
4741 { return __gnu_cxx::__stoa(&std::wcstoll, "stoll", __str.c_str(),
4742 __idx, __base); }
4743
4744 inline unsigned long long
4745 stoull(const wstring& __str, size_t* __idx = 0, int __base = 10)
4746 { return __gnu_cxx::__stoa(&std::wcstoull, "stoull", __str.c_str(),
4747 __idx, __base); }
4748
4749 // NB: wcstof vs wcstod.
4750 inline float
4751 stof(const wstring& __str, size_t* __idx = 0)
4752 { return __gnu_cxx::__stoa(&std::wcstof, "stof", __str.c_str(), __idx); }
4753
4754 inline double
4755 stod(const wstring& __str, size_t* __idx = 0)
4756 { return __gnu_cxx::__stoa(&std::wcstod, "stod", __str.c_str(), __idx); }
4757
4758 inline long double
4759 stold(const wstring& __str, size_t* __idx = 0)
4760 { return __gnu_cxx::__stoa(&std::wcstold, "stold", __str.c_str(), __idx); }
4761#endif
4762
4763#ifdef _GLIBCXX_USE_WCHAR_T1
4764#pragma GCC diagnostic push
4765#pragma GCC diagnostic ignored "-Wc++17-extensions"
4766 _GLIBCXX20_CONSTEXPRconstexpr
4767 inline void
4768 __to_wstring_numeric(const char* __s, int __len, wchar_t* __wout)
4769 {
4770 // This condition is true if exec-charset and wide-exec-charset share the
4771 // same values for the ASCII subset or the EBCDIC invariant character set.
4772 if constexpr (wchar_t('0') == L'0' && wchar_t('-') == L'-'
4773 && wchar_t('.') == L'.' && wchar_t('e') == L'e')
4774 {
4775 for (int __i = 0; __i < __len; ++__i)
4776 __wout[__i] = (wchar_t) __s[__i];
4777 }
4778 else
4779 {
4780 wchar_t __wc[256];
4781 for (int __i = '0'; __i <= '9'; ++__i)
4782 __wc[__i] = L'0' + __i;
4783 __wc['.'] = L'.';
4784 __wc['+'] = L'+';
4785 __wc['-'] = L'-';
4786 __wc['a'] = L'a';
4787 __wc['b'] = L'b';
4788 __wc['c'] = L'c';
4789 __wc['d'] = L'd';
4790 __wc['e'] = L'e';
4791 __wc['f'] = L'f';
4792 __wc['i'] = L'i'; // for "inf"
4793 __wc['n'] = L'n'; // for "nan" and "inf"
4794 __wc['p'] = L'p'; // for hexfloats "0x1p1"
4795 __wc['x'] = L'x';
4796 __wc['A'] = L'A';
4797 __wc['B'] = L'B';
4798 __wc['C'] = L'C';
4799 __wc['D'] = L'D';
4800 __wc['E'] = L'E';
4801 __wc['F'] = L'F';
4802 __wc['I'] = L'I';
4803 __wc['N'] = L'N';
4804 __wc['P'] = L'P';
4805 __wc['X'] = L'X';
4806
4807 for (int __i = 0; __i < __len; ++__i)
4808 __wout[__i] = __wc[(int)__s[__i]];
4809 }
4810 }
4811
4812#if __glibcxx_constexpr_string201907L >= 201907L
4813 constexpr
4814#endif
4815 inline wstring
4816#ifdef __glibcxx_string_view201803L // >= C++17
4817 __to_wstring_numeric(string_view __s)
4818#else
4819 __to_wstring_numeric(const string& __s)
4820#endif
4821 {
4822 if constexpr (wchar_t('0') == L'0' && wchar_t('-') == L'-'
4823 && wchar_t('.') == L'.' && wchar_t('e') == L'e')
4824 return wstring(__s.data(), __s.data() + __s.size());
4825 else
4826 {
4827 wstring __ws;
4828 auto __f = __s.data();
4829 __ws.__resize_and_overwrite(__s.size(),
4830 [__f] (wchar_t* __to, int __n) {
4831 std::__to_wstring_numeric(__f, __n, __to);
4832 return __n;
4833 });
4834 return __ws;
4835 }
4836 }
4837#pragma GCC diagnostic pop
4838
4839 _GLIBCXX_NODISCARD[[__nodiscard__]]
4840 inline wstring
4841 to_wstring(int __val)
4842 { return std::__to_wstring_numeric(std::to_string(__val)); }
4843
4844 _GLIBCXX_NODISCARD[[__nodiscard__]]
4845 inline wstring
4846 to_wstring(unsigned __val)
4847 { return std::__to_wstring_numeric(std::to_string(__val)); }
4848
4849 _GLIBCXX_NODISCARD[[__nodiscard__]]
4850 inline wstring
4851 to_wstring(long __val)
4852 { return std::__to_wstring_numeric(std::to_string(__val)); }
4853
4854 _GLIBCXX_NODISCARD[[__nodiscard__]]
4855 inline wstring
4856 to_wstring(unsigned long __val)
4857 { return std::__to_wstring_numeric(std::to_string(__val)); }
4858
4859 _GLIBCXX_NODISCARD[[__nodiscard__]]
4860 inline wstring
4861 to_wstring(long long __val)
4862 { return std::__to_wstring_numeric(std::to_string(__val)); }
4863
4864 _GLIBCXX_NODISCARD[[__nodiscard__]]
4865 inline wstring
4866 to_wstring(unsigned long long __val)
4867 { return std::__to_wstring_numeric(std::to_string(__val)); }
4868
4869#if __glibcxx_to_string || _GLIBCXX_USE_C99_STDIO1
4870 _GLIBCXX_NODISCARD[[__nodiscard__]]
4871 inline wstring
4872 to_wstring(float __val)
4873 { return std::__to_wstring_numeric(std::to_string(__val)); }
4874
4875 _GLIBCXX_NODISCARD[[__nodiscard__]]
4876 inline wstring
4877 to_wstring(double __val)
4878 { return std::__to_wstring_numeric(std::to_string(__val)); }
4879
4880 _GLIBCXX_NODISCARD[[__nodiscard__]]
4881 inline wstring
4882 to_wstring(long double __val)
4883 { return std::__to_wstring_numeric(std::to_string(__val)); }
4884#endif
4885#endif // _GLIBCXX_USE_WCHAR_T
4886
4887_GLIBCXX_END_NAMESPACE_CXX11}
4888_GLIBCXX_END_NAMESPACE_VERSION
4889} // namespace
4890
4891#endif /* C++11 */
4892
4893#if __cplusplus202002L >= 201103L
4894
4895#include <bits/functional_hash.h>
4896
4897namespace std _GLIBCXX_VISIBILITY(default)__attribute__ ((__visibility__ ("default")))
4898{
4899_GLIBCXX_BEGIN_NAMESPACE_VERSION
4900
4901 // _GLIBCXX_RESOLVE_LIB_DEFECTS
4902 // 3705. Hashability shouldn't depend on basic_string's allocator
4903
4904 template<typename _CharT, typename _Alloc,
4905 typename _StrT = basic_string<_CharT, char_traits<_CharT>, _Alloc>>
4906 struct __str_hash_base
4907 : public __hash_base<size_t, _StrT>
4908 {
4909 [[__nodiscard__]]
4910 size_t
4911 operator()(const _StrT& __s) const noexcept
4912 { return _Hash_impl::hash(__s.data(), __s.length() * sizeof(_CharT)); }
4913 };
4914
4915#ifndef _GLIBCXX_COMPATIBILITY_CXX0X
4916 /// std::hash specialization for string.
4917 template<typename _Alloc>
4918 struct hash<basic_string<char, char_traits<char>, _Alloc>>
4919 : public __str_hash_base<char, _Alloc>
4920 { };
4921
4922 /// std::hash specialization for wstring.
4923 template<typename _Alloc>
4924 struct hash<basic_string<wchar_t, char_traits<wchar_t>, _Alloc>>
4925 : public __str_hash_base<wchar_t, _Alloc>
4926 { };
4927
4928 template<typename _Alloc>
4929 struct __is_fast_hash<hash<basic_string<wchar_t, char_traits<wchar_t>,
4930 _Alloc>>>
4931 : std::false_type
4932 { };
4933#endif /* _GLIBCXX_COMPATIBILITY_CXX0X */
4934
4935#ifdef _GLIBCXX_USE_CHAR8_T1
4936 /// std::hash specialization for u8string.
4937 template<typename _Alloc>
4938 struct hash<basic_string<char8_t, char_traits<char8_t>, _Alloc>>
4939 : public __str_hash_base<char8_t, _Alloc>
4940 { };
4941#endif
4942
4943 /// std::hash specialization for u16string.
4944 template<typename _Alloc>
4945 struct hash<basic_string<char16_t, char_traits<char16_t>, _Alloc>>
4946 : public __str_hash_base<char16_t, _Alloc>
4947 { };
4948
4949 /// std::hash specialization for u32string.
4950 template<typename _Alloc>
4951 struct hash<basic_string<char32_t, char_traits<char32_t>, _Alloc>>
4952 : public __str_hash_base<char32_t, _Alloc>
4953 { };
4954
4955#if ! _GLIBCXX_INLINE_VERSION0
4956 // PR libstdc++/105907 - __is_fast_hash affects unordered container ABI.
4957 template<> struct __is_fast_hash<hash<string>> : std::false_type { };
4958 template<> struct __is_fast_hash<hash<wstring>> : std::false_type { };
4959 template<> struct __is_fast_hash<hash<u16string>> : std::false_type { };
4960 template<> struct __is_fast_hash<hash<u32string>> : std::false_type { };
4961#ifdef _GLIBCXX_USE_CHAR8_T1
4962 template<> struct __is_fast_hash<hash<u8string>> : std::false_type { };
4963#endif
4964#else
4965 // For versioned namespace, assume every std::hash<basic_string<>> is slow.
4966 template<typename _CharT, typename _Traits, typename _Alloc>
4967 struct __is_fast_hash<hash<basic_string<_CharT, _Traits, _Alloc>>>
4968 : std::false_type
4969 { };
4970#endif
4971
4972#ifdef __glibcxx_string_udls201304L // C++ >= 14
4973 inline namespace literals
4974 {
4975 inline namespace string_literals
4976 {
4977#pragma GCC diagnostic push
4978#pragma GCC diagnostic ignored "-Wliteral-suffix"
4979
4980#if __glibcxx_constexpr_string201907L >= 201907L
4981# define _GLIBCXX_STRING_CONSTEXPR constexpr
4982#else
4983# define _GLIBCXX_STRING_CONSTEXPR
4984#endif
4985
4986 _GLIBCXX_DEFAULT_ABI_TAG__attribute ((__abi_tag__ ("cxx11"))) _GLIBCXX_STRING_CONSTEXPR
4987 inline basic_string<char>
4988 operator""s(const char* __str, size_t __len)
4989 { return basic_string<char>{__str, __len}; }
4990
4991 _GLIBCXX_DEFAULT_ABI_TAG__attribute ((__abi_tag__ ("cxx11"))) _GLIBCXX_STRING_CONSTEXPR
4992 inline basic_string<wchar_t>
4993 operator""s(const wchar_t* __str, size_t __len)
4994 { return basic_string<wchar_t>{__str, __len}; }
4995
4996#ifdef _GLIBCXX_USE_CHAR8_T1
4997 _GLIBCXX_DEFAULT_ABI_TAG__attribute ((__abi_tag__ ("cxx11"))) _GLIBCXX_STRING_CONSTEXPR
4998 inline basic_string<char8_t>
4999 operator""s(const char8_t* __str, size_t __len)
5000 { return basic_string<char8_t>{__str, __len}; }
5001#endif
5002
5003 _GLIBCXX_DEFAULT_ABI_TAG__attribute ((__abi_tag__ ("cxx11"))) _GLIBCXX_STRING_CONSTEXPR
5004 inline basic_string<char16_t>
5005 operator""s(const char16_t* __str, size_t __len)
5006 { return basic_string<char16_t>{__str, __len}; }
5007
5008 _GLIBCXX_DEFAULT_ABI_TAG__attribute ((__abi_tag__ ("cxx11"))) _GLIBCXX_STRING_CONSTEXPR
5009 inline basic_string<char32_t>
5010 operator""s(const char32_t* __str, size_t __len)
5011 { return basic_string<char32_t>{__str, __len}; }
5012
5013#undef _GLIBCXX_STRING_CONSTEXPR
5014#pragma GCC diagnostic pop
5015 } // inline namespace string_literals
5016 } // inline namespace literals
5017#endif // __glibcxx_string_udls
5018
5019#ifdef __glibcxx_variant202106L // >= C++17
5020 namespace __detail::__variant
5021 {
5022 template<typename> struct _Never_valueless_alt; // see <variant>
5023
5024 // Provide the strong exception-safety guarantee when emplacing a
5025 // basic_string into a variant, but only if moving the string cannot throw.
5026 template<typename _Tp, typename _Traits, typename _Alloc>
5027 struct _Never_valueless_alt<std::basic_string<_Tp, _Traits, _Alloc>>
5028 : __and_<
5029 is_nothrow_move_constructible<std::basic_string<_Tp, _Traits, _Alloc>>,
5030 is_nothrow_move_assignable<std::basic_string<_Tp, _Traits, _Alloc>>
5031 >::type
5032 { };
5033 } // namespace __detail::__variant
5034#endif // C++17
5035
5036_GLIBCXX_END_NAMESPACE_VERSION
5037} // namespace std
5038
5039#endif // C++11
5040
5041#endif /* _BASIC_STRING_H */