unittests/Runtime/external-io.cpp - llvm-project/flang - Git at Google

 // Sanity test for all external I/O modes

 #include "testing.h"
 #include "../../runtime/io-api.h"
 #include "../../runtime/main.h"
 #include "../../runtime/stop.h"
 #include "llvm/Support/raw_ostream.h"
 #include <cstring>

 using namespace Fortran::runtime::io;

 void TestDirectUnformatted() {
   llvm::errs() << "begin TestDirectUnformatted()\n";
   // OPEN(NEWUNIT=unit,ACCESS='DIRECT',ACTION='READWRITE',&
   //   FORM='UNFORMATTED',RECL=8,STATUS='SCRATCH')
   auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
   IONAME(SetAccess)(io, "DIRECT", 6) || (Fail() << "SetAccess(DIRECT)", 0);
   IONAME(SetAction)
   (io, "READWRITE", 9) || (Fail() << "SetAction(READWRITE)", 0);
   IONAME(SetForm)
   (io, "UNFORMATTED", 11) || (Fail() << "SetForm(UNFORMATTED)", 0);
   std::int64_t buffer;
   static constexpr std::size_t recl{sizeof buffer};
   IONAME(SetRecl)(io, recl) || (Fail() << "SetRecl()", 0);
   IONAME(SetStatus)(io, "SCRATCH", 7) || (Fail() << "SetStatus(SCRATCH)", 0);
   int unit{-1};
   IONAME(GetNewUnit)(io, unit) || (Fail() << "GetNewUnit()", 0);
   llvm::errs() << "unit=" << unit << '\n';
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for OpenNewUnit", 0);
   static constexpr int records{10};
   for (int j{1}; j <= records; ++j) {
     // WRITE(UNIT=unit,REC=j) j
     io = IONAME(BeginUnformattedOutput)(unit, __FILE__, __LINE__);
     IONAME(SetRec)(io, j) || (Fail() << "SetRec(" << j << ')', 0);
     buffer = j;
     IONAME(OutputUnformattedBlock)
     (io, reinterpret_cast<const char *>(&buffer), recl, recl) ||
         (Fail() << "OutputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for OutputUnformattedBlock", 0);
   }
   for (int j{records}; j >= 1; --j) {
     // READ(UNIT=unit,REC=j) n
     io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
     IONAME(SetRec)
     (io, j) || (Fail() << "SetRec(" << j << ')', 0);
     IONAME(InputUnformattedBlock)
     (io, reinterpret_cast<char *>(&buffer), recl, recl) ||
         (Fail() << "InputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
     if (buffer != j) {
       Fail() << "Read back " << buffer << " from direct unformatted record "
              << j << ", expected " << j << '\n';
     }
   }
   // CLOSE(UNIT=unit,STATUS='DELETE')
   io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
   IONAME(SetStatus)(io, "DELETE", 6) || (Fail() << "SetStatus(DELETE)", 0);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Close", 0);
   llvm::errs() << "end TestDirectUnformatted()\n";
 }

 void TestDirectUnformattedSwapped() {
   llvm::errs() << "begin TestDirectUnformattedSwapped()\n";
   // OPEN(NEWUNIT=unit,ACCESS='DIRECT',ACTION='READWRITE',&
   //   FORM='UNFORMATTED',RECL=8,STATUS='SCRATCH',CONVERT='NATIVE')
   auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
   IONAME(SetAccess)(io, "DIRECT", 6) || (Fail() << "SetAccess(DIRECT)", 0);
   IONAME(SetAction)
   (io, "READWRITE", 9) || (Fail() << "SetAction(READWRITE)", 0);
   IONAME(SetForm)
   (io, "UNFORMATTED", 11) || (Fail() << "SetForm(UNFORMATTED)", 0);
   IONAME(SetConvert)
   (io, "NATIVE", 6) || (Fail() << "SetConvert(NATIVE)", 0);
   std::int64_t buffer;
   static constexpr std::size_t recl{sizeof buffer};
   IONAME(SetRecl)(io, recl) || (Fail() << "SetRecl()", 0);
   IONAME(SetStatus)(io, "SCRATCH", 7) || (Fail() << "SetStatus(SCRATCH)", 0);
   int unit{-1};
   IONAME(GetNewUnit)(io, unit) || (Fail() << "GetNewUnit()", 0);
   llvm::errs() << "unit=" << unit << '\n';
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for OpenNewUnit", 0);
   static constexpr int records{10};
   for (int j{1}; j <= records; ++j) {
     // WRITE(UNIT=unit,REC=j) j
     io = IONAME(BeginUnformattedOutput)(unit, __FILE__, __LINE__);
     IONAME(SetRec)(io, j) || (Fail() << "SetRec(" << j << ')', 0);
     buffer = j;
     IONAME(OutputUnformattedBlock)
     (io, reinterpret_cast<const char *>(&buffer), recl, recl) ||
         (Fail() << "OutputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for OutputUnformattedBlock", 0);
   }
   // OPEN(UNIT=unit,STATUS='OLD',CONVERT='SWAP')
   io = IONAME(BeginOpenUnit)(unit, __FILE__, __LINE__);
   IONAME(SetStatus)(io, "OLD", 3) || (Fail() << "SetStatus(OLD)", 0);
   IONAME(SetConvert)
   (io, "SWAP", 4) || (Fail() << "SetConvert(SWAP)", 0);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for OpenUnit", 0);
   for (int j{records}; j >= 1; --j) {
     // READ(UNIT=unit,REC=j) n
     io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
     IONAME(SetRec)
     (io, j) || (Fail() << "SetRec(" << j << ')', 0);
     IONAME(InputUnformattedBlock)
     (io, reinterpret_cast<char *>(&buffer), recl, recl) ||
         (Fail() << "InputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
     if (buffer >> 56 != j) {
       Fail() << "Read back " << (buffer >> 56)
              << " from direct unformatted record " << j << ", expected " << j
              << '\n';
     }
   }
   // CLOSE(UNIT=unit,STATUS='DELETE')
   io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
   IONAME(SetStatus)(io, "DELETE", 6) || (Fail() << "SetStatus(DELETE)", 0);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Close", 0);
   llvm::errs() << "end TestDirectUnformatted()\n";
 }

 void TestSequentialFixedUnformatted() {
   llvm::errs() << "begin TestSequentialFixedUnformatted()\n";
   // OPEN(NEWUNIT=unit,ACCESS='SEQUENTIAL',ACTION='READWRITE',&
   //   FORM='UNFORMATTED',RECL=8,STATUS='SCRATCH')
   auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
   IONAME(SetAccess)
   (io, "SEQUENTIAL", 10) || (Fail() << "SetAccess(SEQUENTIAL)", 0);
   IONAME(SetAction)
   (io, "READWRITE", 9) || (Fail() << "SetAction(READWRITE)", 0);
   IONAME(SetForm)
   (io, "UNFORMATTED", 11) || (Fail() << "SetForm(UNFORMATTED)", 0);
   std::int64_t buffer;
   static constexpr std::size_t recl{sizeof buffer};
   IONAME(SetRecl)(io, recl) || (Fail() << "SetRecl()", 0);
   IONAME(SetStatus)(io, "SCRATCH", 7) || (Fail() << "SetStatus(SCRATCH)", 0);
   int unit{-1};
   IONAME(GetNewUnit)(io, unit) || (Fail() << "GetNewUnit()", 0);
   llvm::errs() << "unit=" << unit << '\n';
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for OpenNewUnit", 0);
   static const int records{10};
   for (int j{1}; j <= records; ++j) {
     // DO J=1,RECORDS; WRITE(UNIT=unit) j; END DO
     io = IONAME(BeginUnformattedOutput)(unit, __FILE__, __LINE__);
     buffer = j;
     IONAME(OutputUnformattedBlock)
     (io, reinterpret_cast<const char *>(&buffer), recl, recl) ||
         (Fail() << "OutputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for OutputUnformattedBlock", 0);
   }
   // REWIND(UNIT=unit)
   io = IONAME(BeginRewind)(unit, __FILE__, __LINE__);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Rewind", 0);
   for (int j{1}; j <= records; ++j) {
     // DO J=1,RECORDS; READ(UNIT=unit) n; check n; END DO
     io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
     IONAME(InputUnformattedBlock)
     (io, reinterpret_cast<char *>(&buffer), recl, recl) ||
         (Fail() << "InputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
     if (buffer != j) {
       Fail() << "Read back " << buffer
              << " from sequential fixed unformatted record " << j
              << ", expected " << j << '\n';
     }
   }
   for (int j{records}; j >= 1; --j) {
     // BACKSPACE(UNIT=unit)
     io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for Backspace (before read)", 0);
     // READ(UNIT=unit) n
     io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
     IONAME(InputUnformattedBlock)
     (io, reinterpret_cast<char *>(&buffer), recl, recl) ||
         (Fail() << "InputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
     if (buffer != j) {
       Fail() << "Read back " << buffer
              << " from sequential fixed unformatted record " << j
              << " after backspacing, expected " << j << '\n';
     }
     // BACKSPACE(UNIT=unit)
     io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for Backspace (after read)", 0);
   }
   // CLOSE(UNIT=unit,STATUS='DELETE')
   io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
   IONAME(SetStatus)(io, "DELETE", 6) || (Fail() << "SetStatus(DELETE)", 0);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Close", 0);
   llvm::errs() << "end TestSequentialFixedUnformatted()\n";
 }

 void TestSequentialVariableUnformatted() {
   llvm::errs() << "begin TestSequentialVariableUnformatted()\n";
   // OPEN(NEWUNIT=unit,ACCESS='SEQUENTIAL',ACTION='READWRITE',&
   //   FORM='UNFORMATTED',STATUS='SCRATCH')
   auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
   IONAME(SetAccess)
   (io, "SEQUENTIAL", 10) || (Fail() << "SetAccess(SEQUENTIAL)", 0);
   IONAME(SetAction)
   (io, "READWRITE", 9) || (Fail() << "SetAction(READWRITE)", 0);
   IONAME(SetForm)
   (io, "UNFORMATTED", 11) || (Fail() << "SetForm(UNFORMATTED)", 0);
   IONAME(SetStatus)(io, "SCRATCH", 7) || (Fail() << "SetStatus(SCRATCH)", 0);
   int unit{-1};
   IONAME(GetNewUnit)(io, unit) || (Fail() << "GetNewUnit()", 0);
   llvm::errs() << "unit=" << unit << '\n';
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for OpenNewUnit", 0);
   static const int records{10};
   std::int64_t buffer[records]; // INTEGER*8 :: BUFFER(0:9) = [(j,j=0,9)]
   for (int j{0}; j < records; ++j) {
     buffer[j] = j;
   }
   for (int j{1}; j <= records; ++j) {
     // DO J=1,RECORDS; WRITE(UNIT=unit) BUFFER(0:j); END DO
     io = IONAME(BeginUnformattedOutput)(unit, __FILE__, __LINE__);
     IONAME(OutputUnformattedBlock)
     (io, reinterpret_cast<const char *>(&buffer), j * sizeof *buffer,
         sizeof *buffer) ||
         (Fail() << "OutputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for OutputUnformattedBlock", 0);
   }
   // REWIND(UNIT=unit)
   io = IONAME(BeginRewind)(unit, __FILE__, __LINE__);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Rewind", 0);
   for (int j{1}; j <= records; ++j) {
     // DO J=1,RECORDS; READ(UNIT=unit) n; check n; END DO
     io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
     IONAME(InputUnformattedBlock)
     (io, reinterpret_cast<char *>(&buffer), j * sizeof *buffer,
         sizeof *buffer) ||
         (Fail() << "InputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
     for (int k{0}; k < j; ++k) {
       if (buffer[k] != k) {
         Fail() << "Read back [" << k << "]=" << buffer[k]
                << " from direct unformatted record " << j << ", expected " << k
                << '\n';
       }
     }
   }
   for (int j{records}; j >= 1; --j) {
     // BACKSPACE(unit)
     io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for Backspace (before read)", 0);
     // READ(unit=unit) n; check
     io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
     IONAME(InputUnformattedBlock)
     (io, reinterpret_cast<char *>(&buffer), j * sizeof *buffer,
         sizeof *buffer) ||
         (Fail() << "InputUnformattedBlock()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
     for (int k{0}; k < j; ++k) {
       if (buffer[k] != k) {
         Fail() << "Read back [" << k << "]=" << buffer[k]
                << " from sequential variable unformatted record " << j
                << ", expected " << k << '\n';
       }
     }
     // BACKSPACE(unit)
     io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for Backspace (after read)", 0);
   }
   // CLOSE(UNIT=unit,STATUS='DELETE')
   io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
   IONAME(SetStatus)(io, "DELETE", 6) || (Fail() << "SetStatus(DELETE)", 0);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Close", 0);
   llvm::errs() << "end TestSequentialVariableUnformatted()\n";
 }

 void TestDirectFormatted() {
   llvm::errs() << "begin TestDirectFormatted()\n";
   // OPEN(NEWUNIT=unit,ACCESS='DIRECT',ACTION='READWRITE',&
   //   FORM='FORMATTED',RECL=8,STATUS='SCRATCH')
   auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
   IONAME(SetAccess)(io, "DIRECT", 6) || (Fail() << "SetAccess(DIRECT)", 0);
   IONAME(SetAction)
   (io, "READWRITE", 9) || (Fail() << "SetAction(READWRITE)", 0);
   IONAME(SetForm)
   (io, "FORMATTED", 9) || (Fail() << "SetForm(FORMATTED)", 0);
   static constexpr std::size_t recl{8};
   IONAME(SetRecl)(io, recl) || (Fail() << "SetRecl()", 0);
   IONAME(SetStatus)(io, "SCRATCH", 7) || (Fail() << "SetStatus(SCRATCH)", 0);
   int unit{-1};
   IONAME(GetNewUnit)(io, unit) || (Fail() << "GetNewUnit()", 0);
   llvm::errs() << "unit=" << unit << '\n';
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for OpenNewUnit", 0);
   static constexpr int records{10};
   static const char fmt[]{"(I4)"};
   for (int j{1}; j <= records; ++j) {
     // WRITE(UNIT=unit,FMT=fmt,REC=j) j
     io = IONAME(BeginExternalFormattedOutput)(
         fmt, sizeof fmt - 1, unit, __FILE__, __LINE__);
     IONAME(SetRec)(io, j) || (Fail() << "SetRec(" << j << ')', 0);
     IONAME(OutputInteger64)(io, j) || (Fail() << "OutputInteger64()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk || (Fail() << "EndIoStatement() for OutputInteger64", 0);
   }
   for (int j{records}; j >= 1; --j) {
     // READ(UNIT=unit,FMT=fmt,REC=j) n
     io = IONAME(BeginExternalFormattedInput)(
         fmt, sizeof fmt - 1, unit, __FILE__, __LINE__);
     IONAME(SetRec)(io, j) || (Fail() << "SetRec(" << j << ')', 0);
     std::int64_t buffer;
     IONAME(InputInteger)(io, buffer) || (Fail() << "InputInteger()", 0);
     IONAME(EndIoStatement)
     (io) == IostatOk || (Fail() << "EndIoStatement() for InputInteger", 0);
     if (buffer != j) {
       Fail() << "Read back " << buffer << " from direct formatted record " << j
              << ", expected " << j << '\n';
     }
   }
   // CLOSE(UNIT=unit,STATUS='DELETE')
   io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
   IONAME(SetStatus)(io, "DELETE", 6) || (Fail() << "SetStatus(DELETE)", 0);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Close", 0);
   llvm::errs() << "end TestDirectformatted()\n";
 }

 void TestSequentialVariableFormatted() {
   llvm::errs() << "begin TestSequentialVariableFormatted()\n";
   // OPEN(NEWUNIT=unit,ACCESS='SEQUENTIAL',ACTION='READWRITE',&
   //   FORM='FORMATTED',STATUS='SCRATCH')
   auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
   IONAME(SetAccess)
   (io, "SEQUENTIAL", 10) || (Fail() << "SetAccess(SEQUENTIAL)", 0);
   IONAME(SetAction)
   (io, "READWRITE", 9) || (Fail() << "SetAction(READWRITE)", 0);
   IONAME(SetForm)
   (io, "FORMATTED", 9) || (Fail() << "SetForm(FORMATTED)", 0);
   IONAME(SetStatus)(io, "SCRATCH", 7) || (Fail() << "SetStatus(SCRATCH)", 0);
   int unit{-1};
   IONAME(GetNewUnit)(io, unit) || (Fail() << "GetNewUnit()", 0);
   llvm::errs() << "unit=" << unit << '\n';
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for OpenNewUnit", 0);
   static const int records{10};
   std::int64_t buffer[records]; // INTEGER*8 :: BUFFER(0:9) = [(j,j=0,9)]
   for (int j{0}; j < records; ++j) {
     buffer[j] = j;
   }
   char fmt[32];
   for (int j{1}; j <= records; ++j) {
     std::snprintf(fmt, sizeof fmt, "(%dI4)", j);
     // DO J=1,RECORDS; WRITE(UNIT=unit,FMT=fmt) BUFFER(0:j); END DO
     io = IONAME(BeginExternalFormattedOutput)(
         fmt, std::strlen(fmt), unit, __FILE__, __LINE__);
     for (int k{0}; k < j; ++k) {
       IONAME(OutputInteger64)
       (io, buffer[k]) || (Fail() << "OutputInteger64()", 0);
     }
     IONAME(EndIoStatement)
     (io) == IostatOk || (Fail() << "EndIoStatement() for OutputInteger64", 0);
   }
   // REWIND(UNIT=unit)
   io = IONAME(BeginRewind)(unit, __FILE__, __LINE__);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Rewind", 0);
   for (int j{1}; j <= records; ++j) {
     std::snprintf(fmt, sizeof fmt, "(%dI4)", j);
     // DO J=1,RECORDS; READ(UNIT=unit,FMT=fmt) n; check n; END DO
     io = IONAME(BeginExternalFormattedInput)(
         fmt, std::strlen(fmt), unit, __FILE__, __LINE__);
     std::int64_t check[records];
     for (int k{0}; k < j; ++k) {
       IONAME(InputInteger)(io, check[k]) || (Fail() << "InputInteger()", 0);
     }
     IONAME(EndIoStatement)
     (io) == IostatOk || (Fail() << "EndIoStatement() for InputInteger", 0);
     for (int k{0}; k < j; ++k) {
       if (buffer[k] != check[k]) {
         Fail() << "Read back [" << k << "]=" << check[k]
                << " from sequential variable formatted record " << j
                << ", expected " << buffer[k] << '\n';
       }
     }
   }
   for (int j{records}; j >= 1; --j) {
     // BACKSPACE(unit)
     io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for Backspace (before read)", 0);
     std::snprintf(fmt, sizeof fmt, "(%dI4)", j);
     // READ(UNIT=unit,FMT=fmt) n; check
     io = IONAME(BeginExternalFormattedInput)(
         fmt, std::strlen(fmt), unit, __FILE__, __LINE__);
     std::int64_t check[records];
     for (int k{0}; k < j; ++k) {
       IONAME(InputInteger)(io, check[k]) || (Fail() << "InputInteger()", 0);
     }
     IONAME(EndIoStatement)
     (io) == IostatOk || (Fail() << "EndIoStatement() for InputInteger", 0);
     for (int k{0}; k < j; ++k) {
       if (buffer[k] != check[k]) {
         Fail() << "Read back [" << k << "]=" << buffer[k]
                << " from sequential variable formatted record " << j
                << ", expected " << buffer[k] << '\n';
       }
     }
     // BACKSPACE(unit)
     io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
     IONAME(EndIoStatement)
     (io) == IostatOk ||
         (Fail() << "EndIoStatement() for Backspace (after read)", 0);
   }
   // CLOSE(UNIT=unit,STATUS='DELETE')
   io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
   IONAME(SetStatus)(io, "DELETE", 6) || (Fail() << "SetStatus(DELETE)", 0);
   IONAME(EndIoStatement)
   (io) == IostatOk || (Fail() << "EndIoStatement() for Close", 0);
   llvm::errs() << "end TestSequentialVariableFormatted()\n";
 }

 void TestStreamUnformatted() {
   // TODO
 }

 int main() {
   StartTests();
   TestDirectUnformatted();
   TestDirectUnformattedSwapped();
   TestSequentialFixedUnformatted();
   TestSequentialVariableUnformatted();
   TestDirectFormatted();
   TestSequentialVariableFormatted();
   TestStreamUnformatted();
   return EndTests();
 }
	// Sanity test for all external I/O modes

	#include "testing.h"
	#include "../../runtime/io-api.h"
	#include "../../runtime/main.h"
	#include "../../runtime/stop.h"
	#include "llvm/Support/raw_ostream.h"
	#include <cstring>

	using namespace Fortran::runtime::io;

	void TestDirectUnformatted() {
	llvm::errs() << "begin TestDirectUnformatted()\n";
	// OPEN(NEWUNIT=unit,ACCESS='DIRECT',ACTION='READWRITE',&
	// FORM='UNFORMATTED',RECL=8,STATUS='SCRATCH')
	auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
	IONAME(SetAccess)(io, "DIRECT", 6) \|\| (Fail() << "SetAccess(DIRECT)", 0);
	IONAME(SetAction)
	(io, "READWRITE", 9) \|\| (Fail() << "SetAction(READWRITE)", 0);
	IONAME(SetForm)
	(io, "UNFORMATTED", 11) \|\| (Fail() << "SetForm(UNFORMATTED)", 0);
	std::int64_t buffer;
	static constexpr std::size_t recl{sizeof buffer};
	IONAME(SetRecl)(io, recl) \|\| (Fail() << "SetRecl()", 0);
	IONAME(SetStatus)(io, "SCRATCH", 7) \|\| (Fail() << "SetStatus(SCRATCH)", 0);
	int unit{-1};
	IONAME(GetNewUnit)(io, unit) \|\| (Fail() << "GetNewUnit()", 0);
	llvm::errs() << "unit=" << unit << '\n';
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OpenNewUnit", 0);
	static constexpr int records{10};
	for (int j{1}; j <= records; ++j) {
	// WRITE(UNIT=unit,REC=j) j
	io = IONAME(BeginUnformattedOutput)(unit, __FILE__, __LINE__);
	IONAME(SetRec)(io, j) \|\| (Fail() << "SetRec(" << j << ')', 0);
	buffer = j;
	IONAME(OutputUnformattedBlock)
	(io, reinterpret_cast<const char *>(&buffer), recl, recl) \|\|
	(Fail() << "OutputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for OutputUnformattedBlock", 0);
	}
	for (int j{records}; j >= 1; --j) {
	// READ(UNIT=unit,REC=j) n
	io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
	IONAME(SetRec)
	(io, j) \|\| (Fail() << "SetRec(" << j << ')', 0);
	IONAME(InputUnformattedBlock)
	(io, reinterpret_cast<char *>(&buffer), recl, recl) \|\|
	(Fail() << "InputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
	if (buffer != j) {
	Fail() << "Read back " << buffer << " from direct unformatted record "
	<< j << ", expected " << j << '\n';
	}
	}
	// CLOSE(UNIT=unit,STATUS='DELETE')
	io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
	IONAME(SetStatus)(io, "DELETE", 6) \|\| (Fail() << "SetStatus(DELETE)", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Close", 0);
	llvm::errs() << "end TestDirectUnformatted()\n";
	}

	void TestDirectUnformattedSwapped() {
	llvm::errs() << "begin TestDirectUnformattedSwapped()\n";
	// OPEN(NEWUNIT=unit,ACCESS='DIRECT',ACTION='READWRITE',&
	// FORM='UNFORMATTED',RECL=8,STATUS='SCRATCH',CONVERT='NATIVE')
	auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
	IONAME(SetAccess)(io, "DIRECT", 6) \|\| (Fail() << "SetAccess(DIRECT)", 0);
	IONAME(SetAction)
	(io, "READWRITE", 9) \|\| (Fail() << "SetAction(READWRITE)", 0);
	IONAME(SetForm)
	(io, "UNFORMATTED", 11) \|\| (Fail() << "SetForm(UNFORMATTED)", 0);
	IONAME(SetConvert)
	(io, "NATIVE", 6) \|\| (Fail() << "SetConvert(NATIVE)", 0);
	std::int64_t buffer;
	static constexpr std::size_t recl{sizeof buffer};
	IONAME(SetRecl)(io, recl) \|\| (Fail() << "SetRecl()", 0);
	IONAME(SetStatus)(io, "SCRATCH", 7) \|\| (Fail() << "SetStatus(SCRATCH)", 0);
	int unit{-1};
	IONAME(GetNewUnit)(io, unit) \|\| (Fail() << "GetNewUnit()", 0);
	llvm::errs() << "unit=" << unit << '\n';
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OpenNewUnit", 0);
	static constexpr int records{10};
	for (int j{1}; j <= records; ++j) {
	// WRITE(UNIT=unit,REC=j) j
	io = IONAME(BeginUnformattedOutput)(unit, __FILE__, __LINE__);
	IONAME(SetRec)(io, j) \|\| (Fail() << "SetRec(" << j << ')', 0);
	buffer = j;
	IONAME(OutputUnformattedBlock)
	(io, reinterpret_cast<const char *>(&buffer), recl, recl) \|\|
	(Fail() << "OutputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for OutputUnformattedBlock", 0);
	}
	// OPEN(UNIT=unit,STATUS='OLD',CONVERT='SWAP')
	io = IONAME(BeginOpenUnit)(unit, __FILE__, __LINE__);
	IONAME(SetStatus)(io, "OLD", 3) \|\| (Fail() << "SetStatus(OLD)", 0);
	IONAME(SetConvert)
	(io, "SWAP", 4) \|\| (Fail() << "SetConvert(SWAP)", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OpenUnit", 0);
	for (int j{records}; j >= 1; --j) {
	// READ(UNIT=unit,REC=j) n
	io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
	IONAME(SetRec)
	(io, j) \|\| (Fail() << "SetRec(" << j << ')', 0);
	IONAME(InputUnformattedBlock)
	(io, reinterpret_cast<char *>(&buffer), recl, recl) \|\|
	(Fail() << "InputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
	if (buffer >> 56 != j) {
	Fail() << "Read back " << (buffer >> 56)
	<< " from direct unformatted record " << j << ", expected " << j
	<< '\n';
	}
	}
	// CLOSE(UNIT=unit,STATUS='DELETE')
	io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
	IONAME(SetStatus)(io, "DELETE", 6) \|\| (Fail() << "SetStatus(DELETE)", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Close", 0);
	llvm::errs() << "end TestDirectUnformatted()\n";
	}

	void TestSequentialFixedUnformatted() {
	llvm::errs() << "begin TestSequentialFixedUnformatted()\n";
	// OPEN(NEWUNIT=unit,ACCESS='SEQUENTIAL',ACTION='READWRITE',&
	// FORM='UNFORMATTED',RECL=8,STATUS='SCRATCH')
	auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
	IONAME(SetAccess)
	(io, "SEQUENTIAL", 10) \|\| (Fail() << "SetAccess(SEQUENTIAL)", 0);
	IONAME(SetAction)
	(io, "READWRITE", 9) \|\| (Fail() << "SetAction(READWRITE)", 0);
	IONAME(SetForm)
	(io, "UNFORMATTED", 11) \|\| (Fail() << "SetForm(UNFORMATTED)", 0);
	std::int64_t buffer;
	static constexpr std::size_t recl{sizeof buffer};
	IONAME(SetRecl)(io, recl) \|\| (Fail() << "SetRecl()", 0);
	IONAME(SetStatus)(io, "SCRATCH", 7) \|\| (Fail() << "SetStatus(SCRATCH)", 0);
	int unit{-1};
	IONAME(GetNewUnit)(io, unit) \|\| (Fail() << "GetNewUnit()", 0);
	llvm::errs() << "unit=" << unit << '\n';
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OpenNewUnit", 0);
	static const int records{10};
	for (int j{1}; j <= records; ++j) {
	// DO J=1,RECORDS; WRITE(UNIT=unit) j; END DO
	io = IONAME(BeginUnformattedOutput)(unit, __FILE__, __LINE__);
	buffer = j;
	IONAME(OutputUnformattedBlock)
	(io, reinterpret_cast<const char *>(&buffer), recl, recl) \|\|
	(Fail() << "OutputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for OutputUnformattedBlock", 0);
	}
	// REWIND(UNIT=unit)
	io = IONAME(BeginRewind)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Rewind", 0);
	for (int j{1}; j <= records; ++j) {
	// DO J=1,RECORDS; READ(UNIT=unit) n; check n; END DO
	io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
	IONAME(InputUnformattedBlock)
	(io, reinterpret_cast<char *>(&buffer), recl, recl) \|\|
	(Fail() << "InputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
	if (buffer != j) {
	Fail() << "Read back " << buffer
	<< " from sequential fixed unformatted record " << j
	<< ", expected " << j << '\n';
	}
	}
	for (int j{records}; j >= 1; --j) {
	// BACKSPACE(UNIT=unit)
	io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for Backspace (before read)", 0);
	// READ(UNIT=unit) n
	io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
	IONAME(InputUnformattedBlock)
	(io, reinterpret_cast<char *>(&buffer), recl, recl) \|\|
	(Fail() << "InputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
	if (buffer != j) {
	Fail() << "Read back " << buffer
	<< " from sequential fixed unformatted record " << j
	<< " after backspacing, expected " << j << '\n';
	}
	// BACKSPACE(UNIT=unit)
	io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for Backspace (after read)", 0);
	}
	// CLOSE(UNIT=unit,STATUS='DELETE')
	io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
	IONAME(SetStatus)(io, "DELETE", 6) \|\| (Fail() << "SetStatus(DELETE)", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Close", 0);
	llvm::errs() << "end TestSequentialFixedUnformatted()\n";
	}

	void TestSequentialVariableUnformatted() {
	llvm::errs() << "begin TestSequentialVariableUnformatted()\n";
	// OPEN(NEWUNIT=unit,ACCESS='SEQUENTIAL',ACTION='READWRITE',&
	// FORM='UNFORMATTED',STATUS='SCRATCH')
	auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
	IONAME(SetAccess)
	(io, "SEQUENTIAL", 10) \|\| (Fail() << "SetAccess(SEQUENTIAL)", 0);
	IONAME(SetAction)
	(io, "READWRITE", 9) \|\| (Fail() << "SetAction(READWRITE)", 0);
	IONAME(SetForm)
	(io, "UNFORMATTED", 11) \|\| (Fail() << "SetForm(UNFORMATTED)", 0);
	IONAME(SetStatus)(io, "SCRATCH", 7) \|\| (Fail() << "SetStatus(SCRATCH)", 0);
	int unit{-1};
	IONAME(GetNewUnit)(io, unit) \|\| (Fail() << "GetNewUnit()", 0);
	llvm::errs() << "unit=" << unit << '\n';
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OpenNewUnit", 0);
	static const int records{10};
	std::int64_t buffer[records]; // INTEGER*8 :: BUFFER(0:9) = [(j,j=0,9)]
	for (int j{0}; j < records; ++j) {
	buffer[j] = j;
	}
	for (int j{1}; j <= records; ++j) {
	// DO J=1,RECORDS; WRITE(UNIT=unit) BUFFER(0:j); END DO
	io = IONAME(BeginUnformattedOutput)(unit, __FILE__, __LINE__);
	IONAME(OutputUnformattedBlock)
	(io, reinterpret_cast<const char >(&buffer), j sizeof *buffer,
	sizeof *buffer) \|\|
	(Fail() << "OutputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for OutputUnformattedBlock", 0);
	}
	// REWIND(UNIT=unit)
	io = IONAME(BeginRewind)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Rewind", 0);
	for (int j{1}; j <= records; ++j) {
	// DO J=1,RECORDS; READ(UNIT=unit) n; check n; END DO
	io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
	IONAME(InputUnformattedBlock)
	(io, reinterpret_cast<char >(&buffer), j sizeof *buffer,
	sizeof *buffer) \|\|
	(Fail() << "InputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
	for (int k{0}; k < j; ++k) {
	if (buffer[k] != k) {
	Fail() << "Read back [" << k << "]=" << buffer[k]
	<< " from direct unformatted record " << j << ", expected " << k
	<< '\n';
	}
	}
	}
	for (int j{records}; j >= 1; --j) {
	// BACKSPACE(unit)
	io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for Backspace (before read)", 0);
	// READ(unit=unit) n; check
	io = IONAME(BeginUnformattedInput)(unit, __FILE__, __LINE__);
	IONAME(InputUnformattedBlock)
	(io, reinterpret_cast<char >(&buffer), j sizeof *buffer,
	sizeof *buffer) \|\|
	(Fail() << "InputUnformattedBlock()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for InputUnformattedBlock", 0);
	for (int k{0}; k < j; ++k) {
	if (buffer[k] != k) {
	Fail() << "Read back [" << k << "]=" << buffer[k]
	<< " from sequential variable unformatted record " << j
	<< ", expected " << k << '\n';
	}
	}
	// BACKSPACE(unit)
	io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for Backspace (after read)", 0);
	}
	// CLOSE(UNIT=unit,STATUS='DELETE')
	io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
	IONAME(SetStatus)(io, "DELETE", 6) \|\| (Fail() << "SetStatus(DELETE)", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Close", 0);
	llvm::errs() << "end TestSequentialVariableUnformatted()\n";
	}

	void TestDirectFormatted() {
	llvm::errs() << "begin TestDirectFormatted()\n";
	// OPEN(NEWUNIT=unit,ACCESS='DIRECT',ACTION='READWRITE',&
	// FORM='FORMATTED',RECL=8,STATUS='SCRATCH')
	auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
	IONAME(SetAccess)(io, "DIRECT", 6) \|\| (Fail() << "SetAccess(DIRECT)", 0);
	IONAME(SetAction)
	(io, "READWRITE", 9) \|\| (Fail() << "SetAction(READWRITE)", 0);
	IONAME(SetForm)
	(io, "FORMATTED", 9) \|\| (Fail() << "SetForm(FORMATTED)", 0);
	static constexpr std::size_t recl{8};
	IONAME(SetRecl)(io, recl) \|\| (Fail() << "SetRecl()", 0);
	IONAME(SetStatus)(io, "SCRATCH", 7) \|\| (Fail() << "SetStatus(SCRATCH)", 0);
	int unit{-1};
	IONAME(GetNewUnit)(io, unit) \|\| (Fail() << "GetNewUnit()", 0);
	llvm::errs() << "unit=" << unit << '\n';
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OpenNewUnit", 0);
	static constexpr int records{10};
	static const char fmt[]{"(I4)"};
	for (int j{1}; j <= records; ++j) {
	// WRITE(UNIT=unit,FMT=fmt,REC=j) j
	io = IONAME(BeginExternalFormattedOutput)(
	fmt, sizeof fmt - 1, unit, __FILE__, __LINE__);
	IONAME(SetRec)(io, j) \|\| (Fail() << "SetRec(" << j << ')', 0);
	IONAME(OutputInteger64)(io, j) \|\| (Fail() << "OutputInteger64()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OutputInteger64", 0);
	}
	for (int j{records}; j >= 1; --j) {
	// READ(UNIT=unit,FMT=fmt,REC=j) n
	io = IONAME(BeginExternalFormattedInput)(
	fmt, sizeof fmt - 1, unit, __FILE__, __LINE__);
	IONAME(SetRec)(io, j) \|\| (Fail() << "SetRec(" << j << ')', 0);
	std::int64_t buffer;
	IONAME(InputInteger)(io, buffer) \|\| (Fail() << "InputInteger()", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for InputInteger", 0);
	if (buffer != j) {
	Fail() << "Read back " << buffer << " from direct formatted record " << j
	<< ", expected " << j << '\n';
	}
	}
	// CLOSE(UNIT=unit,STATUS='DELETE')
	io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
	IONAME(SetStatus)(io, "DELETE", 6) \|\| (Fail() << "SetStatus(DELETE)", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Close", 0);
	llvm::errs() << "end TestDirectformatted()\n";
	}

	void TestSequentialVariableFormatted() {
	llvm::errs() << "begin TestSequentialVariableFormatted()\n";
	// OPEN(NEWUNIT=unit,ACCESS='SEQUENTIAL',ACTION='READWRITE',&
	// FORM='FORMATTED',STATUS='SCRATCH')
	auto io{IONAME(BeginOpenNewUnit)(__FILE__, __LINE__)};
	IONAME(SetAccess)
	(io, "SEQUENTIAL", 10) \|\| (Fail() << "SetAccess(SEQUENTIAL)", 0);
	IONAME(SetAction)
	(io, "READWRITE", 9) \|\| (Fail() << "SetAction(READWRITE)", 0);
	IONAME(SetForm)
	(io, "FORMATTED", 9) \|\| (Fail() << "SetForm(FORMATTED)", 0);
	IONAME(SetStatus)(io, "SCRATCH", 7) \|\| (Fail() << "SetStatus(SCRATCH)", 0);
	int unit{-1};
	IONAME(GetNewUnit)(io, unit) \|\| (Fail() << "GetNewUnit()", 0);
	llvm::errs() << "unit=" << unit << '\n';
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OpenNewUnit", 0);
	static const int records{10};
	std::int64_t buffer[records]; // INTEGER*8 :: BUFFER(0:9) = [(j,j=0,9)]
	for (int j{0}; j < records; ++j) {
	buffer[j] = j;
	}
	char fmt[32];
	for (int j{1}; j <= records; ++j) {
	std::snprintf(fmt, sizeof fmt, "(%dI4)", j);
	// DO J=1,RECORDS; WRITE(UNIT=unit,FMT=fmt) BUFFER(0:j); END DO
	io = IONAME(BeginExternalFormattedOutput)(
	fmt, std::strlen(fmt), unit, __FILE__, __LINE__);
	for (int k{0}; k < j; ++k) {
	IONAME(OutputInteger64)
	(io, buffer[k]) \|\| (Fail() << "OutputInteger64()", 0);
	}
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for OutputInteger64", 0);
	}
	// REWIND(UNIT=unit)
	io = IONAME(BeginRewind)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Rewind", 0);
	for (int j{1}; j <= records; ++j) {
	std::snprintf(fmt, sizeof fmt, "(%dI4)", j);
	// DO J=1,RECORDS; READ(UNIT=unit,FMT=fmt) n; check n; END DO
	io = IONAME(BeginExternalFormattedInput)(
	fmt, std::strlen(fmt), unit, __FILE__, __LINE__);
	std::int64_t check[records];
	for (int k{0}; k < j; ++k) {
	IONAME(InputInteger)(io, check[k]) \|\| (Fail() << "InputInteger()", 0);
	}
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for InputInteger", 0);
	for (int k{0}; k < j; ++k) {
	if (buffer[k] != check[k]) {
	Fail() << "Read back [" << k << "]=" << check[k]
	<< " from sequential variable formatted record " << j
	<< ", expected " << buffer[k] << '\n';
	}
	}
	}
	for (int j{records}; j >= 1; --j) {
	// BACKSPACE(unit)
	io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for Backspace (before read)", 0);
	std::snprintf(fmt, sizeof fmt, "(%dI4)", j);
	// READ(UNIT=unit,FMT=fmt) n; check
	io = IONAME(BeginExternalFormattedInput)(
	fmt, std::strlen(fmt), unit, __FILE__, __LINE__);
	std::int64_t check[records];
	for (int k{0}; k < j; ++k) {
	IONAME(InputInteger)(io, check[k]) \|\| (Fail() << "InputInteger()", 0);
	}
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for InputInteger", 0);
	for (int k{0}; k < j; ++k) {
	if (buffer[k] != check[k]) {
	Fail() << "Read back [" << k << "]=" << buffer[k]
	<< " from sequential variable formatted record " << j
	<< ", expected " << buffer[k] << '\n';
	}
	}
	// BACKSPACE(unit)
	io = IONAME(BeginBackspace)(unit, __FILE__, __LINE__);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\|
	(Fail() << "EndIoStatement() for Backspace (after read)", 0);
	}
	// CLOSE(UNIT=unit,STATUS='DELETE')
	io = IONAME(BeginClose)(unit, __FILE__, __LINE__);
	IONAME(SetStatus)(io, "DELETE", 6) \|\| (Fail() << "SetStatus(DELETE)", 0);
	IONAME(EndIoStatement)
	(io) == IostatOk \|\| (Fail() << "EndIoStatement() for Close", 0);
	llvm::errs() << "end TestSequentialVariableFormatted()\n";
	}

	void TestStreamUnformatted() {
	// TODO
	}

	int main() {
	StartTests();
	TestDirectUnformatted();
	TestDirectUnformattedSwapped();
	TestSequentialFixedUnformatted();
	TestSequentialVariableUnformatted();
	TestDirectFormatted();
	TestSequentialVariableFormatted();
	TestStreamUnformatted();
	return EndTests();
	}