clp.exe crashes with the following mps file when primalTolerance is small.

> clp.exe test.mps -primalTolerance 1e-6 -minimize -solve -solution result.txt
-> crashed.
> clp.exe test.mps -primalTolerance 1e-5 -minimize -solve -solution result.txt
-> didn't crash.

I tested with Clp-releases.1.17.8-w64-msvc16-md and Clp-releases.1.17.8-w64-msvc17-md.

test.mps

NAME TestConvexQP
ROWS
N OBJECT
G R1
G R2
G R3
G R4
G R5
G R6
G R7
G R8
G R9
G R10
G R11
G R12
G R13
G R14
COLUMNS
X1 OBJECT -6.33174068731535E-16
X1 R1 -1.38237231824552
X1 R2 2.57705493348984
X1 R3 0.893710887963403
X1 R4 -1.40467816181794
X1 R5 -0.74909952135441
X1 R6 -0.0750949408363687
X1 R7 -0.731082739214938
X1 R8 -1.38209298467333
X1 R9 2.57905334394858
X1 R10 1.05764436210498
X1 R11 -1.40458079066066
X1 R12 -0.746246377481727
X1 R13 -0.0780573394061342
X1 R14 -0.726226183869852
X2 OBJECT -5.69390793737391E-16
X2 R1 -0.0163560436138557
X2 R2 1.99468668353512
X2 R3 -2.08061722789719
X2 R4 -1.7452198444874
X2 R5 0.00576562468973074
X2 R6 1.72289997073075
X2 R7 0.00317872161630151
X2 R8 -0.0162427791511776
X2 R9 1.99549700105277
X2 R10 -2.01414531505974
X2 R11 -1.74518036233091
X2 R12 0.00692252038666297
X2 R13 1.72169877432745
X2 R14 0.00514796264702411
X3 OBJECT -6.14525791364784E-16
X3 R1 -0.128877715086185
X3 R2 1.37055762721054
X3 R3 -0.0716728882465328
X3 R4 -1.97720981439181
X3 R5 -0.319475756546151
X3 R6 0.00441989753315607
X3 R7 -0.315769691514621
X3 R8 -0.128659639793125
X3 R9 1.3721177832026
X3 R10 0.0563097245659944
X3 R11 -1.97713379687808
X3 R12 -0.317248311483645
X3 R13 0.00210715749555091
X3 R14 -0.311978186176328
X4 OBJECT -1.15098902631061E-15
X4 R1 -0.0432908552288926
X4 R2 1.07806573967557
X4 R3 0.327339448908376
X4 R4 -0.678501456388584
X4 R5 -1.35945672835786
X4 R6 0.106541328004554
X4 R7 -0.483422818595674
X4 R8 -0.0435646187786731
X4 R9 1.07610717831539
X4 R10 0.16667487337562
X4 R11 -0.678596885926302
X4 R12 -1.3622529794081
X4 R13 0.109444655169813
X4 R14 -0.488182532297562
X5 OBJECT -2.09684700158697E-16
X5 R1 -0.0993212094007268
X5 R2 0.0618017282483161
X5 R3 1.30352157601599
X5 R4 0.0265692044750114
X5 R5 -0.295791120941798
X5 R6 -1.93279732830741
X5 R7 -0.289370365468515
X5 R8 -0.0992885550823477
X5 R9 0.0620353440319846
X5 R10 1.32268553047975
X5 R11 0.0265805872413084
X5 R12 -0.295457586137262
X5 R13 -1.93314363507356
X5 R14 -0.288802630257806
X6 OBJECT 2.92300905702092E-16
X6 R1 -0.160617952702279
X6 R2 1.20755881297912
X6 R3 0.0441285699135943
X6 R4 -0.711979517569525
X6 R5 -0.552017697819496
X6 R6 0.0946476743325082
X6 R7 -1.40296588288707
X6 R8 -0.160254311772758
X6 R9 1.21016037580263
X6 R10 0.257539798818364
X6 R11 -0.711852758233496
X6 R12 -0.548303429313324
X6 R13 0.0907911763073798
X6 R14 -1.3966435411575
RHS
RHS1 R1 -37.6429498997557
RHS1 R2 97.2260867768474
RHS1 R3 92.1174211328235
RHS1 R4 -76.1564401334131
RHS1 R5 -78.9968183755308
RHS1 R6 -78.6017251879198
RHS1 R7 -78.9197383853335
RHS1 R8 -37.6327822133182
RHS1 R9 97.2988733287527
RHS1 R10 98.0872492496583
RHS1 R11 -76.1528955227783
RHS1 R12 -78.8929569832673
RHS1 R13 -78.7095974542488
RHS1 R14 -78.7429479316258
BOUNDS
FR BOUND X1
FR BOUND X2
FR BOUND X3
FR BOUND X4
FR BOUND X5
FR BOUND X6
QUADOBJ
X1 X1 0.14280365295569
X2 X1 0.112326679560112
X3 X1 -0.0123426882592386
X4 X1 0.0130221420022721
X5 X1 -0.00303279324360872
X6 X1 0.0214287229889673
X2 X2 0.287384690609157
X3 X2 -0.0105760572630717
X4 X2 0.0659032217822261
X5 X2 0.0136386481909511
X6 X2 0.0684447360576953
X3 X3 0.0186310316323555
X4 X3 -0.00534137201121943
X5 X3 0.00551850579515465
X6 X3 -0.00717579847817494
X4 X4 0.074974826336554
X5 X4 0.000161393296927416
X6 X4 -0.0160052249623282
X5 X5 0.0191971633222669
X6 X5 -0.0012507650563196
X6 X6 0.0684963196238557
ENDATA

Quadratic has not been kept up to date and "initialSolve" got confused. You will not get any advantages from -solve and I would suggest that you use -primals (or -barrier).

Using -primalS, -dualS, -either to test.mps crashed clp.exe as did using -solve.
When using -barrier clp.exe did not crash and got the optimal solution.

However, when -barrier is used for test2.mps below, "Stopped on iterations or time" is output and the optimal solution cannot be obtained. Using anything other than -barrier gives the optimal solution.

test2.mps

NAME TestConvexQP2
ROWS
N OBJECT
G R1
G R2
G R3
G R4
G R5
G R6
G R7
COLUMNS
X1 OBJECT 2.55795384873636E-13
X1 R1 -1.25631423183625
X1 R2 1.98604848145615
X1 R3 0.99185595596329
X1 R4 -0.954603162502961
X1 R5 -0.52646433314256
X1 R6 -0.0817190489498771
X1 R7 -0.509774744102942
X2 OBJECT 1.61248792096558E-12
X2 R1 -0.0233025790374162
X2 R2 2.02878160251631
X2 R3 -2.01045269630086
X2 R4 -1.77043702879025
X2 R5 -0.00541356354344802
X2 R6 1.7219043013822
X2 R7 -0.00700117872522277
X3 OBJECT 1.45661260830821E-13
X3 R1 -0.112130956868261
X3 R2 1.29419055683126
X3 R3 0.0476644193715896
X3 R4 -1.91800188968916
X3 R5 -0.288366583516715
X3 R6 0.00162596942009061
X3 R7 -0.28353413552517
X4 OBJECT 3.83693077310454E-13
X4 R1 -0.0113112590499856
X4 R2 0.92404334623397
X4 R3 0.149804797298355
X4 R4 -0.563209429909544
X4 R5 -1.30589441980973
X4 R6 0.108505685491132
X4 R7 -0.432678037356059
X5 OBJECT -1.45661260830821E-13
X5 R1 -0.0811470859700689
X5 R2 -0.0234956312216178
X5 R3 1.31319665965662
X5 R4 0.0914822900989671
X5 R5 -0.263757723649542
X5 R6 -1.93367177507406
X5 R7 -0.257583151448648
X6 OBJECT 2.50466314355435E-13
X6 R1 -0.138826951875191
X6 R2 1.10913752160014
X6 R3 0.24633224727497
X6 R4 -0.63519567293963
X6 R5 -0.510861899191156
X6 R6 0.0901673764487839
X6 R7 -1.35976940466292
RHS
RHS1 R1 -17.2597424123373
RHS1 R2 14225.9130627521
RHS1 R3 22936.8714349602
RHS1 R4 -8833.86192490507
RHS1 R5 -17192.4491752307
RHS1 R6 -36571.2210227025
RHS1 R7 -13972.2371885318
BOUNDS
FR BOUND X1
FR BOUND X2
FR BOUND X3
FR BOUND X4
FR BOUND X5
FR BOUND X6
QUADOBJ
X1 X1 0.108246709675597
X2 X1 0.0981788720437024
X3 X1 -0.00845140083983216
X4 X1 0.00561835927314888
X5 X1 -0.00820344962936441
X6 X1 0.0186714268943699
X2 X2 0.386635725120289
X3 X2 -0.0062400187535258
X4 X2 0.0732691582982062
X5 X2 -0.00515108026110568
X6 X2 0.0826523917402175
X3 X3 0.0228650739989253
X4 X3 -0.0031017729527417
X5 X3 0.00656871316535296
X6 X3 -0.0035688309802128
X4 X4 0.0709331318070513
X5 X4 -0.00254740864681019
X6 X4 -0.0124685458835092
X5 X5 0.0192526536066132
X6 X5 -0.00380880744331457
X6 X6 0.0718042446464811
ENDATA

I managed to get first problem to error as described with some builds. Can't get it to error with master - that says -
Unscaled problem has dual infeasibilities.
With -scaling off all versions work.

As it looks like a scaling/accuracy problem - how are you solving the problems? If you are creating an mps file then it would be better to create it with more accuracy writing values as exact representations of doubles (like formatType==2 in writeMps

I am generating test cases in C#. I changed ToString() to ToString("R") as you advised.

First, I generated test_R.mps with improved accuracy of test.mps.
> clp.exe test*.mps -scaling X -primalS -solution test*.txt
The results are shown in the table below.
scaling auto dynamic equi geo off rows
test.mps Crash Crash OK Crash OK OK
test_R.mps OK OK Crash OK Crash OK
In all test cases I generated clp.exe did not crash if -scaling was rows. But it could be a coincidence so I would like to remove the root cause of the crash if possible.

I then generated test2_R.mps, which is an improved version of test2.mps, and a new test case, test3.mps.
> clp.exe test*.mps -scaling X -barrier -solution test*.txt
The results are shown in the table below.
scaling auto dynamic equi geo off rows
test2.mps Stopped Stopped Stopped Stopped Stopped Stopped
test2_R.mps OK OK OK OK OK OK
test3_R.mps OK Crash OK OK Crash OK
Test2_R.mps has improved results. However, I found a test case where clp.exe crashes when -barrier is used.

test_R.mps

NAME TestConvexQPRoundTrip
ROWS
N OBJECT
G R1
G R2
G R3
G R4
G R5
G R6
G R7
G R8
G R9
G R10
G R11
G R12
G R13
G R14
COLUMNS
X1 OBJECT -6.3317406873153459E-16
X1 R1 -1.3823723182455239
X1 R2 2.5770549334898445
X1 R3 0.89371088796340281
X1 R4 -1.4046781618179374
X1 R5 -0.74909952135441049
X1 R6 -0.075094940836368709
X1 R7 -0.73108273921493794
X1 R8 -1.3820929846733299
X1 R9 2.5790533439485821
X1 R10 1.0576443621049834
X1 R11 -1.4045807906606562
X1 R12 -0.74624637748172684
X1 R13 -0.078057339406134157
X1 R14 -0.72622618386985249
X2 OBJECT -5.6939079373739127E-16
X2 R1 -0.016356043613855675
X2 R2 1.9946866835351202
X2 R3 -2.0806172278971924
X2 R4 -1.7452198444873976
X2 R5 0.0057656246897307417
X2 R6 1.7228999707307491
X2 R7 0.0031787216163015053
X2 R8 -0.016242779151177555
X2 R9 1.9954970010527744
X2 R10 -2.0141453150597384
X2 R11 -1.7451803623309112
X2 R12 0.006922520386662967
X2 R13 1.7216987743274506
X2 R14 0.0051479626470241069
X3 OBJECT -6.1452579136478391E-16
X3 R1 -0.12887771508618545
X3 R2 1.3705576272105386
X3 R3 -0.071672888246532784
X3 R4 -1.9772098143918055
X3 R5 -0.31947575654615096
X3 R6 0.0044198975331560661
X3 R7 -0.31576969151462142
X3 R8 -0.12865963979312511
X3 R9 1.3721177832025986
X3 R10 0.056309724565994416
X3 R11 -1.9771337968780769
X3 R12 -0.31724831148364541
X3 R13 0.0021071574955509147
X3 R14 -0.31197818617632811
X4 OBJECT -1.1509890263106115E-15
X4 R1 -0.043290855228892589
X4 R2 1.078065739675568
X4 R3 0.32733944890837563
X4 R4 -0.67850145638858383
X4 R5 -1.359456728357856
X4 R6 0.10654132800455392
X4 R7 -0.48342281859567426
X4 R8 -0.0435646187786731
X4 R9 1.0761071783153946
X4 R10 0.16667487337561995
X4 R11 -0.6785968859263023
X4 R12 -1.3622529794081006
X4 R13 0.10944465516981253
X4 R14 -0.48818253229756203
X5 OBJECT -2.0968470015869656E-16
X5 R1 -0.099321209400726834
X5 R2 0.061801728248316132
X5 R3 1.3035215760159888
X5 R4 0.026569204475011418
X5 R5 -0.29579112094179788
X5 R6 -1.9327973283074056
X5 R7 -0.28937036546851452
X5 R8 -0.099288555082347726
X5 R9 0.062035344031984616
X5 R10 1.3226855304797531
X5 R11 0.026580587241308393
X5 R12 -0.2954575861372622
X5 R13 -1.9331436350735625
X5 R14 -0.288802630257806
X6 OBJECT 2.92300905702092E-16
X6 R1 -0.1606179527022788
X6 R2 1.2075588129791246
X6 R3 0.044128569913594304
X6 R4 -0.71197951756952516
X6 R5 -0.55201769781949572
X6 R6 0.094647674332508216
X6 R7 -1.4029658828870666
X6 R8 -0.16025431177275784
X6 R9 1.2101603758026327
X6 R10 0.25753979881836375
X6 R11 -0.71185275823349614
X6 R12 -0.5483034293133241
X6 R13 0.09079117630737979
X6 R14 -1.3966435411574976
RHS
RHS1 R1 -37.642949899755664
RHS1 R2 97.226086776847438
RHS1 R3 92.117421132823452
RHS1 R4 -76.156440133413071
RHS1 R5 -78.996818375530836
RHS1 R6 -78.601725187919826
RHS1 R7 -78.919738385333531
RHS1 R8 -37.632782213318244
RHS1 R9 97.298873328752663
RHS1 R10 98.087249249658257
RHS1 R11 -76.152895522778337
RHS1 R12 -78.892956983267325
RHS1 R13 -78.7095974542488
RHS1 R14 -78.742947931625764
BOUNDS
FR BOUND X1
FR BOUND X2
FR BOUND X3
FR BOUND X4
FR BOUND X5
FR BOUND X6
QUADOBJ
X1 X1 0.14280365295569
X2 X1 0.11232667956011218
X3 X1 -0.012342688259238639
X4 X1 0.013022142002272096
X5 X1 -0.0030327932436087189
X6 X1 0.021428722988967284
X2 X2 0.28738469060915678
X3 X2 -0.010576057263071748
X4 X2 0.065903221782226115
X5 X2 0.013638648190951131
X6 X2 0.068444736057695257
X3 X3 0.018631031632355539
X4 X3 -0.0053413720112194286
X5 X3 0.00551850579515465
X6 X3 -0.0071757984781749447
X4 X4 0.074974826336553987
X5 X4 0.00016139329692741594
X6 X4 -0.016005224962328236
X5 X5 0.019197163322266918
X6 X5 -0.0012507650563196
X6 X6 0.068496319623855662
ENDATA

test3_R.mps

NAME TestConvexQPRoundTripInfeasible
ROWS
N OBJECT
G R1
G R2
G R3
G R4
G R5
G R6
G R7
G R8
G R9
G R10
G R11
G R12
G R13
G R14
G R15
G R16
G R17
G R18
G R19
G R20
G R21
G R22
G R23
G R24
G R25
G R26
G R27
G R28
G R29
G R30
G R31
G R32
G R33
G R34
G R35
G R36
G R37
G R38
G R39
G R40
G R41
G R42
G R43
G R44
G R45
G R46
G R47
G R48
G R49
G R50
G R51
G R52
G R53
G R54
G R55
G R56
G R57
G R58
G R59
G R60
G R61
G R62
G R63
G R64
G R65
G R66
G R67
G R68
G R69
G R70
G R71
G R72
G R73
G R74
G R75
G R76
G R77
G R78
G R79
G R80
G R81
G R82
G R83
G R84
COLUMNS
X1 OBJECT 0.71410195383874608
X1 R1 1.7461065890401677
X1 R2 -1.7461065890401677
X1 R3 1
X1 R4 -1
X1 R5 1
X1 R6 -1
X1 R7 1
X1 R8 -1
X1 R9 1
X1 R10 -1
X1 R11 1
X1 R12 -1
X1 R13 -0.74610658904016769
X1 R14 0.74610658904016769
X1 R15 -0.74610658904016769
X1 R16 0.74610658904016769
X1 R17 -0.74610658904016769
X1 R18 0.74610658904016769
X1 R19 -0.74610658904016769
X1 R20 0.74610658904016769
X1 R21 -0.74610658904016769
X1 R22 0.74610658904016769
X1 R43 1.7461065890401677
X1 R44 -1.7461065890401677
X1 R45 1
X1 R46 -1
X1 R47 1
X1 R48 -1
X1 R49 1
X1 R50 -1
X1 R51 1
X1 R52 -1
X1 R53 1
X1 R54 -1
X1 R55 -0.74610658904016769
X1 R56 0.74610658904016769
X1 R57 -0.74610658904016769
X1 R58 0.74610658904016769
X1 R59 -0.74610658904016769
X1 R60 0.74610658904016769
X1 R61 -0.74610658904016769
X1 R62 0.74610658904016769
X1 R63 -0.74610658904016769
X1 R64 0.74610658904016769
X2 OBJECT -0.32533914707899636
X2 R1 0.98332866760501225
X2 R2 -0.98332866760501225
X2 R3 -1
X2 R4 1
X2 R13 -1.9833286676050124
X2 R14 1.9833286676050124
X2 R15 -0.98332866760501225
X2 R16 0.98332866760501225
X2 R17 -0.98332866760501225
X2 R18 0.98332866760501225
X2 R19 -0.98332866760501225
X2 R20 0.98332866760501225
X2 R21 -0.98332866760501225
X2 R22 0.98332866760501225
X2 R23 1
X2 R24 -1
X2 R25 1
X2 R26 -1
X2 R27 1
X2 R28 -1
X2 R29 1
X2 R30 -1
X2 R43 0.98332866760501225
X2 R44 -0.98332866760501225
X2 R45 -1
X2 R46 1
X2 R55 -1.9833286676050124
X2 R56 1.9833286676050124
X2 R57 -0.98332866760501225
X2 R58 0.98332866760501225
X2 R59 -0.98332866760501225
X2 R60 0.98332866760501225
X2 R61 -0.98332866760501225
X2 R62 0.98332866760501225
X2 R63 -0.98332866760501225
X2 R64 0.98332866760501225
X2 R65 1
X2 R66 -1
X2 R67 1
X2 R68 -1
X2 R69 1
X2 R70 -1
X2 R71 1
X2 R72 -1
X3 OBJECT -0.10297267340369098
X3 R1 0.080493799416719816
X3 R2 -0.080493799416719816
X3 R5 -1
X3 R6 1
X3 R13 -0.080493799416719816
X3 R14 0.080493799416719816
X3 R15 -1.0804937994167199
X3 R16 1.0804937994167199
X3 R17 -0.080493799416719816
X3 R18 0.080493799416719816
X3 R19 -0.080493799416719816
X3 R20 0.080493799416719816
X3 R21 -0.080493799416719816
X3 R22 0.080493799416719816
X3 R23 -1
X3 R24 1
X3 R31 1
X3 R32 -1
X3 R33 1
X3 R34 -1
X3 R35 1
X3 R36 -1
X3 R43 0.080493799416719816
X3 R44 -0.080493799416719816
X3 R47 -1
X3 R48 1
X3 R55 -0.080493799416719816
X3 R56 0.080493799416719816
X3 R57 -1.0804937994167199
X3 R58 1.0804937994167199
X3 R59 -0.080493799416719816
X3 R60 0.080493799416719816
X3 R61 -0.080493799416719816
X3 R62 0.080493799416719816
X3 R63 -0.080493799416719816
X3 R64 0.080493799416719816
X3 R65 -1
X3 R66 1
X3 R73 1
X3 R74 -1
X3 R75 1
X3 R76 -1
X3 R77 1
X3 R78 -1
X4 OBJECT -0.12103523796485483
X4 R1 0.52049963119723075
X4 R2 -0.52049963119723075
X4 R7 -1
X4 R8 1
X4 R13 -0.52049963119723075
X4 R14 0.52049963119723075
X4 R15 -0.52049963119723075
X4 R16 0.52049963119723075
X4 R17 -1.5204996311972308
X4 R18 1.5204996311972308
X4 R19 -0.52049963119723075
X4 R20 0.52049963119723075
X4 R21 -0.52049963119723075
X4 R22 0.52049963119723075
X4 R25 -1
X4 R26 1
X4 R31 -1
X4 R32 1
X4 R37 1
X4 R38 -1
X4 R39 1
X4 R40 -1
X4 R43 0.52049963119723075
X4 R44 -0.52049963119723075
X4 R49 -1
X4 R50 1
X4 R55 -0.52049963119723075
X4 R56 0.52049963119723075
X4 R57 -0.52049963119723075
X4 R58 0.52049963119723075
X4 R59 -1.5204996311972308
X4 R60 1.5204996311972308
X4 R61 -0.52049963119723075
X4 R62 0.52049963119723075
X4 R63 -0.52049963119723075
X4 R64 0.52049963119723075
X4 R67 -1
X4 R68 1
X4 R73 -1
X4 R74 1
X4 R79 1
X4 R80 -1
X4 R81 1
X4 R82 -1
X5 OBJECT -0.28366946676513416
X5 R1 0.073229375252495135
X5 R2 -0.073229375252495135
X5 R9 -1
X5 R10 1
X5 R13 -0.073229375252495135
X5 R14 0.073229375252495135
X5 R15 -0.073229375252495135
X5 R16 0.073229375252495135
X5 R17 -0.073229375252495135
X5 R18 0.073229375252495135
X5 R19 -1.0732293752524951
X5 R20 1.0732293752524951
X5 R21 -0.073229375252495135
X5 R22 0.073229375252495135
X5 R27 -1
X5 R28 1
X5 R33 -1
X5 R34 1
X5 R37 -1
X5 R38 1
X5 R41 1
X5 R42 -1
X5 R43 0.073229375252495135
X5 R44 -0.073229375252495135
X5 R51 -1
X5 R52 1
X5 R55 -0.073229375252495135
X5 R56 0.073229375252495135
X5 R57 -0.073229375252495135
X5 R58 0.073229375252495135
X5 R59 -0.073229375252495135
X5 R60 0.073229375252495135
X5 R61 -1.0732293752524951
X5 R62 1.0732293752524951
X5 R63 -0.073229375252495135
X5 R64 0.073229375252495135
X5 R69 -1
X5 R70 1
X5 R75 -1
X5 R76 1
X5 R79 -1
X5 R80 1
X5 R83 1
X5 R84 -1
X6 OBJECT -0.66742026208402516
X6 R1 0.53643699285113067
X6 R2 -0.53643699285113067
X6 R11 -1
X6 R12 1
X6 R13 -0.53643699285113067
X6 R14 0.53643699285113067
X6 R15 -0.53643699285113067
X6 R16 0.53643699285113067
X6 R17 -0.53643699285113067
X6 R18 0.53643699285113067
X6 R19 -0.53643699285113067
X6 R20 0.53643699285113067
X6 R21 -1.5364369928511308
X6 R22 1.5364369928511308
X6 R29 -1
X6 R30 1
X6 R35 -1
X6 R36 1
X6 R39 -1
X6 R40 1
X6 R41 -1
X6 R42 1
X6 R43 0.53643699285113067
X6 R44 -0.53643699285113067
X6 R53 -1
X6 R54 1
X6 R55 -0.53643699285113067
X6 R56 0.53643699285113067
X6 R57 -0.53643699285113067
X6 R58 0.53643699285113067
X6 R59 -0.53643699285113067
X6 R60 0.53643699285113067
X6 R61 -0.53643699285113067
X6 R62 0.53643699285113067
X6 R63 -1.5364369928511308
X6 R64 1.5364369928511308
X6 R71 -1
X6 R72 1
X6 R77 -1
X6 R78 1
X6 R81 -1
X6 R82 1
X6 R83 -1
X6 R84 1
RHS
RHS1 R1 -1.9832427778049702
RHS1 R2 -1.9867572221950303
RHS1 R3 0.00070519999999962835
RHS1 R4 -3.9707051999999994
RHS1 R5 -0.0005845000000004319
RHS1 R6 -3.9694154999999984
RHS1 R7 0.0011155999999985511
RHS1 R8 -3.9711155999999974
RHS1 R9 0.00024540000000072837
RHS1 R10 -3.9702453999999996
RHS1 R11 0.0012371000000044319
RHS1 R12 -3.9712371000000033
RHS1 R13 -0.0010520221950309772
RHS1 R14 -3.9689479778049694
RHS1 R15 -0.0023417221950321476
RHS1 R16 -3.9676582778049676
RHS1 R17 -0.00064162219502961193
RHS1 R18 -3.9693583778049693
RHS1 R19 -0.001511822195029211
RHS1 R20 -3.9684881778049714
RHS1 R21 -0.00052012219503083656
RHS1 R22 -3.969479877804968
RHS1 R23 -1.9862896999999997
RHS1 R24 -1.9837103000000003
RHS1 R25 -1.9845895999999996
RHS1 R26 -1.985410400000001
RHS1 R27 -1.9854597999999992
RHS1 R28 -1.9845401999999996
RHS1 R29 -1.9844680999999991
RHS1 R30 -1.9855319000000016
RHS1 R31 -1.9832998999999998
RHS1 R32 -1.9867001000000002
RHS1 R33 -1.9841700999999992
RHS1 R34 -1.9858299000000006
RHS1 R35 -1.9831783999999981
RHS1 R36 -1.9868216000000007
RHS1 R37 -1.9858701999999997
RHS1 R38 -1.9841298000000007
RHS1 R39 -1.9848784999999998
RHS1 R40 -1.9851215000000009
RHS1 R41 -1.9840083
RHS1 R42 -1.9859917000000005
RHS1 R43 -23.773242777804967
RHS1 R44 -16.176757222195029
RHS1 R45 -25.589294799999998
RHS1 R46 -14.3607052
RHS1 R47 -29.3905845
RHS1 R48 -10.559415499999997
RHS1 R49 -33.1888844
RHS1 R50 -6.7611155999999966
RHS1 R51 -36.9897546
RHS1 R52 -2.960245399999998
RHS1 R53 -40.788762899999995
RHS1 R54 0.838762899999999
RHS1 R55 -21.791052022195029
RHS1 R56 -18.158947977804967
RHS1 R57 -25.592341722195027
RHS1 R58 -14.357658277804969
RHS1 R59 -29.39064162219503
RHS1 R60 -10.559358377804966
RHS1 R61 -33.191511822195025
RHS1 R62 -6.758488177804967
RHS1 R63 -36.990520122195029
RHS1 R64 -2.9594798778049665
RHS1 R65 -23.776289699999996
RHS1 R66 -16.1737103
RHS1 R67 -27.5745896
RHS1 R68 -12.375410399999996
RHS1 R69 -31.375459799999994
RHS1 R70 -8.5745402
RHS1 R71 -35.1744681
RHS1 R72 -4.7755318999999972
RHS1 R73 -23.773299899999998
RHS1 R74 -16.176700099999998
RHS1 R75 -27.574170099999996
RHS1 R76 -12.3758299
RHS1 R77 -31.373178399999993
RHS1 R78 -8.5768216
RHS1 R79 -23.775870199999996
RHS1 R80 -16.1741298
RHS1 R81 -27.574878499999997
RHS1 R82 -12.375121499999999
RHS1 R83 -23.7740083
RHS1 R84 -16.175991699999997
BOUNDS
FR BOUND X1
FR BOUND X2
FR BOUND X3
FR BOUND X4
FR BOUND X5
FR BOUND X6
QUADOBJ
X1 X1 0.12773471343638093
X2 X1 0.10196952961371175
X3 X1 -0.0093292386606955227
X4 X1 0.015355698544653802
X5 X1 0.00179148994111826
X6 X1 0.022234396172699303
X2 X2 0.27053515944157813
X3 X2 -0.0044801782928801
X4 X2 0.071346059989825059
X5 X2 0.025238285238904652
X6 X2 0.072776031202962388
X3 X3 0.025804696537700223
X4 X3 -0.0025202318116454596
X5 X3 0.0061732011452994137
X6 X3 -0.0046901140692241858
X4 X4 0.086962424907745722
X5 X4 0.0052205577718211216
X6 X4 -0.012441625024233263
X5 X5 0.028499112283986966
X6 X5 0.0035736918205115237
X6 X6 0.07904798363568713
ENDATA

Looking at comments in barrier code, quadratic barrier seems a work in progress (or a mess to put it another way). As I said the initial solve part of Clp does not seem to have been updated for quadratic. Possibly the best solution is to keep it simple. There is an example testQP.cpp in Clp/examples which seems to work on all of your problems.

I understand that the contents of testQP.cpp need to be included in clp.exe to solve quadratic, is my understanding correct? (I'm using a translation system, so I'm worried if I understand correctly. )

It's difficult for me, so I'd like to wait for it to be implemented someday.

I have found a bug and will fix it. Clp primal minimises the true objective plus a large weight times the sum of infeasibilities. The user can set this weight but if the code finds that there is no objective it sets it to 1.0. With quadratic the code first solves the problem just with the linear objective and then starts using the quadratic objective. The bug was that it thought there was no objective (in linear part) and then leaves weight at 1.0. This can lead to problems.
readMps as default treats all values <1.0e-14 as zero and in the first problem all values in linear objective are smaller than that. If I change X4 OBJECT -1.15098902631061E-15 to X4 OBJECT -1.15098902631061E-14 the code worked.
See if scaling your problem so largest entry in linear objective is >1.0e-14 solves problem.

Just noticed that bug had already been fixed in master.

Thanks for the additional information. I would like to experiment with my test case.
However, the deadline for my main business is approaching, so I plan to start the experiment in about three weeks.