Niels Lafleur
Niels Lafleur
Hi, thanks for your reply. I tried using the "box" and "rectpacking" algorithms but these won't result in the way I want to (I am really looking for the tree-kind...
Hi that is indeed almost what I am looking for! Here is my "graph" output in the "elklive json" you linked above: [elklive json](https://rtsys.informatik.uni-kiel.de/elklive/json.html?compressedContent=N4KABBYEQJYCZQFzQE4Hs0BcoBpySgBsBDATzQFdMB5AB0xjQDsBnJMUSL6AU0IGsAdHBgoeAYwbN2UACLUA6gDlc+brwGDiTGAFtimHuwBmxQix551EKHyElSPMXEG6nAcx4BROJ7bIoTBQKIytrKDN3NBQYTAALXRkHJx4EMPUoaPdBCUIYWgsczWTnQXFmFngnAFk0OD5qFHqUMrRdWmYeJkx-aABJJQBlPtkvAH0ABWoAJQAVMeHRsYBxaeoAVQnB1WtoLJzxPIKeIvsyFJcmOp4JknEeN27BFiCDHndSGSUvWYUZgGkFn1qhMADJeAAaUDUYAAvuloOI4jBCHAxEx2ABtGFcYDQF48Wh9BDIAC0AEYcNB4DJ3OgKLQxuTcNA4AZiOxOLtwiQAEZ8GSDQy0MDMnHWeHQTCkWhGAJ0yi0FlQF6kQhyjji7nQXnEcT8BUUJhwADCaEI0RkKHcuoAFAAmACsjpwTpdbpwAAYAJTQ7UQSWBYjWniYCZoSpSDEBTBoJVUlWUFD3cORxjRnVYWOJBPaPRvElgUzmSzQADu8Hi7HJAHZ7Qm4jwYO44thkAA2T0JgAkAAl2AAWT0DhMAD2r9egn2Q5PtcIRuPxwuJ7ApCZp8vpjPtyrZmA5yC5-oIfIFASFhLAO613EDqvVnJvuyguv1huNZotKCtNuIDudroAR6Pp+v6gbSrKtJbsq+4hmGEaxOmMixvG+JJimCFRjIvJZm0yp5vohiFsWFgJhWcBVjOdYNk2LZtmAnY9v2yBDu2Y7sPaw4JtOopzvCN54lAe4Hpqx5cEQxD8oQMh9O00SYGMsjsqB2qBhu-RySgClKfuYwErQzIJuIbxRCgPFQAo0T8MYFplsqMA6AwZjVgmtDBl0mBKNcUGKkyyo8KObnGhM7ndOwQQhEZJAsCwSjEG4Mj6WA+mGUuhIrjOCb3hqR5iS+eoGvSH7mpaATWrytrko6ADMVKcZO9r2gAnL6T6QOBwaePBabSDGcbKiw6E3JhSEBDhmDZvhOiEakJhmKR5aVnE1bUdAjbNq27CMdAfaDp6AAc7HINVnpdlO7BNXxC6QIJwmPmJJ6SWe0AKG8KC6iQrBjDhPAAF4PCp3JqYWFlvR92gsN9aB-Q8enCqlUDGYYpnmZZKDWbZ9mOTAzmZdAbnop53mbr5CMBUFcAhYT4XBKWiPRbF8UaiqwrJfDA3LoWlJLmqOVtRkr6FZQxVfj+FVVbVV6eg1zWtceHVwamiG9VK-VZUNStYWNuE5tABEFnNJZkUtK2TlA610VtZ1QLtLHktb47II6+1NdxpvzgJrLKYe-PcBJUkyK9hjvWYENjB0qJOIDuzA4HYOh19EfNHDhII0j7zRKjVk2WgdnrtjuOiq5oVE-UPkMn5Cbk9olMlzTkWIgzcUJQESUpRz6Vc1l0oPj7D02IL76miV35lTalU1XV0t1bL0cSgmsFdZro2q6hiYUMmw09RmL461N+ZEYbC1QORlGiqt5u0ZtHbW7bYADrOR1gNVTU1m7VFXZ7Qne6J-f+89UAvCBXknPdQscAhdDgB0ByCkgEdC0inAyyp04oxkHAkB+dEKF25lAAmHkvJlxJhXMmgUa5Uw8vXOmhxiAxWbszNu7Nu6dxcjzXuv8Hr5TfEVYeosx7i0nlee0h0rzVRrHLMCC9OqhmXirQIas0IbwwtvbCe9czTQNsgEidNT7LQ-jRDa9Fto22YvfckI5oCOzADWfaOCeK1k-rsW6P9crHn-tJAIsgYAsFoA4ZYW42C+3AbwY00DuiKS8T4sgfjFSQ3bkZEymcZCeO8b4-xWMsHuKLvjEuBDmaGkZCQim5CwrIAilQpuTNEqsziWlIkXdWF837jqAqQ9PylVQOPD0V4Bxv3Pu2cRqlJGKxGrIlCA0NYjJ3uNSaaiD6zU0fNbRJs9FrSvoY2+JiH5sQsewE61seJOgcdYJx+57p-1PJkqAAAxFEwcAny3XCDSBoSFI3MIHcxBacElmRkG8u56SnKZJwXg7ouTy4FP8qQ4KddSm0yijQxmLdals1Th3OpLCWa8zORwwe3C2mjw6RVLp5J9qThrP0nYf9cXCzgLJYgngZAb0ILaAA9C8AwMBxAsvzH4FlwYkQ8CcIIWgTB3C+mutqThQsjRwEGDAf6MhyjdGIA5SlOLojNAUMsq8EruS7yaE4fFMgADEcBqr2mMBatVeVjDMEwAoNZ7BHSnUCUMpekzkLyPXpvGRUzVF63UYfBZRtFoUV0efM2Ftr4MQ2YOElT9OLmKgHYusHtHFe1OX3c5T1Ll+PgMkyJnxXXUieSEtAMCVgxDgAWhwnzkHfPMnm6tESHAApxkC4uhMwVEIhVXKFtdqawobvTBFdCqmXhqSzZheNMVsJcf6KVrSR5iwdFVKk5J2zCMatVAZQM3XSI9X1Neg1FFb2Vn6iaeFZkzWIos42YbTb6MtjfJig5OJP0fudD+abjnZK7cTaA+Sxg7j7UUmFYAynwtoZU1u1ThQgYzSJedkqLkyU0tpZSxbYAg1kvAjDul9IIcRg2wO2dMZMPRcgM22VsV5WpTKo1fCJ6S3qjPFqoDbwLxlMzBytAqAwSkd1c9nrj0TOUdrS9usIiBvmUWO9oaz72KfdGoxd8ByNQ-WbHi1VzU-vUIJEFpc8lbmA5CsDg6INwsbqOmDyLCO7mcb7cSqGAh-KcPciRJaZDPPLWEtzKBYnwfrcjRJrnbnubRRlHVDTaOuPoyLdpUByr-hdFeckksJa7pjlxyCARKCYD49gfdQmtar3Gae31KjJP7xvUfJZD6VmXwMVbV9LF7RJssZ+5Nca+IwgALoIlsL4HgvRsSLmw95stFb0EINw-JRSyl1anrQ3hhbBHGFSkE5NqBvnYHAIQZO-WQa5MhpVBIKMo2nM3SuxkdStgpthJmwpObCCdLED0p6a1TSWbBngjA2LTSCCWOqvtbZ3WZyOntCAfigOCCQPDP9rNsPxKWNB2-G7eqU1Q+R3pwHL54e7cuzj3EGPXHA9B7qnH4PRTtmx8TgMlP+7IeJ1AVH7Z0f04yHY2npOJS84gAN-n1ImDlF0A5dwgw4jEFyxpVbb262M8lflqI4vJfS+Zj56b+2FLtwx7CX2gvXEACsjSSHTAj7oROmdC9Z7sinNvud04evr48huF1Kv3A5KOZUMDYBvDD45vsJsBCDk4cGX0fr-V0GMF7+GOSK4UZvFb835dxKD4vUMcdg7h8hpH2GafXFHdk1ohPZ2zcVCxBj5nri7uh5Dp9XP0Mo8x-Q2t97LBPsJ+fOyrSFv6LV7-uTtiQvxJ2Mh0LgPsP7uU12wDqflj2cuhHwQLHE+u-hH5MFQnlfOfsN3zs469v98r+rDz3fk-icD-n1tGsS-j82Ed8vgMQu3dT4cqL1XUuZdQFj23hXNvldfMJcv9mY68c8oYYZo9dcmkXd-RX89UTcRcow+8rcHor89UF9b918udT8ncxJYDtR4DnwPcVUmBvdUBfcOML8Sca9S0dsK0a0ol-EW85dFsg8T0k8Ahf9U9GF08tsIEHttIW0mCYl-9C8ZNb0jZ2Dzt0xUCxJ0Dnw7tNcwlGDSBokGRIZuD2QPsvs-4e8-sSk98qch9sDMdqxx8cdqC-4CdEcjDkdbdD9h9d9qdDk18bd382hP91dk9XttCC97DACvDv9lChCUkRCNC609cDdS8SCvcCUktKD-ddV0Dg9gl6CVDhC1DmCwCE5G9IDdCMgOD7gs8w9ciIDm9-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-NNDW83sVTxJGSfC49Yy9VOSBCKSxgmzuznxBTg12jXELBOj7T-RHSviGzuTBytCCNJiqc1TbCZyMhzSWcx8DT8DXTp8ZiNTjCOImouw9TV9LC9zN8Z8YEpzYd1yMC7cnCAzcDbivTrtnjfTmpTyPzH9z9gzejQyfiEzv9Fz29+S4yqAVdwzgj+jBy0zndyyF0czzc8ywBxS0DCyqMTy9zfz0zELJVKzCTEjss6zaCuSK0m1VCWCU82DxyhpOy-9mjnxeykzuTKLMihzwgRyTsxyF0JyLtUTjx7zUjai2Kq0qLQKdC9zVz1i9TNySzzCdyHkbcTTDz7DLEmpDozzTYVj7CryUT8zd97znx5LFjcL6cbSJTj9fTNK3ycCZwz9OcMymksyOFvigjmZJKmK-54y-iNd+j2KGjIiyyES8S7VSCqyiS-cSLHF6zFU8h9QxgyxjAxgQiBzwsAtqLfD1tCQQN2D6KuCWy-CgtS8WLRKK04KSqg9uKS8OiBLDKrK8c7tDhOV+AkqUq0qFyiqcraB7QpKpjYIDD+85KLotLnDtNLpdKp9VK7Dr9kBbLtK7YlKJEQyP9oLPLuqwLcq2yF1fKIS+zGyMrYTeqOMY58K9VCKrRiK+cuB4DjE9p6wYRfTvyT9kAXqbAdELp2wFibAo16JtSBxocgA) Is there a way to convert...
Maybe I should've mentioned that I am using the "ReactFlow" package to visualize the elkjs graph. So maybe it is not a elkjs problem but a ReactFlow problem. This is...