upstream/mercurial-mirror Files · contrib/python-zstandard/c-ext/compressiondict.c

debian: support building a single deb for multiple py3 versions...

debian: support building a single deb for multiple py3 versions Around transitions from one python minor version to another (such as 3.7 to 3.8), the current packaging can be slightly problematic - it produces a `control` file that requires that the version of `python3` that's installed be exactly the one that was used on the build machine for the `mercurial` package, by containing a line like: Depends: sensible-utils, libc6 (>= 2.14), python3 (<< 3.8), python3 (>= 3.7~), python3:any (>= 3.5~) This is because it "knows" we only built for v3.7, which is the current default on my system. By building the native components for multiple versions, we can make it produce a line like this, which is compatible with 3.7 AND 3.8: Depends: sensible-utils, libc6 (>= 2.14), python3 (<< 3.9), python3 (>= 3.7~), python3:any (>= 3.5~) This isn't *normally* required, so I'm not making it the default. For those that receive their python3 and mercurial packages from their distro, and/or don't have to worry about a situation where the team that manages the python3 installation isn't the same as the team that manages the mercurial installation, this is probably not necessary. I chose the names `DEB_HG_*` because `DEB_*` is passed through `debuild` automatically (otherwise we'd have to explicitly allow the options through, which is a nuisance), and the `HG` part is to make it clear that this isn't a "standard" debian option that other packages might respect. Test Plan: 1. "nothing changed": - built a deb without these changes - built a deb with these changes but everything at the default - used diffoscope to compare, all differences were due to timestamps 2. "explicit is the same as implicit" (single version) - built a deb with everything at the default - built a deb with DEB_HG_PYTHON_VERSIONS=3.7 - used diffoscope to compare, all differences were due to timestamps 3. "explicit is the same as implicit" (multi version) - built a deb with DEB_HG_MULTI_VERSION=1 - built a deb with DEB_HG_PYTHON_VERSIONS=3.7 - used diffoscope to compare, all differences were due to timestamps 4. (single version, 3.7) doesn't work with python3.8 - `/usr/bin/python3.7 /usr/bin/hg debuginstall` works - `/usr/bin/python3.8 /usr/bin/hg debuginstall` crashes 5. (multi version, 3.7 + 3.8) - `/usr/bin/python3.7 /usr/bin/hg debuginstall` works - `/usr/bin/python3.8 /usr/bin/hg debuginstall` works Differential Revision: https://phab.mercurial-scm.org/D8642

Gregory Szorc - - Load All Authors

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      /**

      * Copyright (c) 2016-present, Gregory Szorc

      * All rights reserved.

      *

      * This software may be modified and distributed under the terms

      * of the BSD license. See the LICENSE file for details.

      */

      #include "python-zstandard.h"

      extern PyObject* ZstdError;

      ZstdCompressionDict* train_dictionary(PyObject* self, PyObject* args, PyObject* kwargs) {

      	static char* kwlist[] = {

      		"dict_size",

      		"samples",

      		"k",

      		"d",

      		"notifications",

      		"dict_id",

      		"level",

      		"steps",

      		"threads",

      		NULL

      	};

      	size_t capacity;

      	PyObject* samples;

      	unsigned k = 0;

      	unsigned d = 0;

      	unsigned notifications = 0;

      	unsigned dictID = 0;

      	int level = 0;

      	unsigned steps = 0;

      	int threads = 0;

      	ZDICT_cover_params_t params;

      	Py_ssize_t samplesLen;

      	Py_ssize_t i;

      	size_t samplesSize = 0;

      	void* sampleBuffer = NULL;

      	size_t* sampleSizes = NULL;

      	void* sampleOffset;

      	Py_ssize_t sampleSize;

      	void* dict = NULL;

      	size_t zresult;

      	ZstdCompressionDict* result = NULL;

      	if (!PyArg_ParseTupleAndKeywords(args, kwargs, "nO!|IIIIiIi:train_dictionary",

      		kwlist, &capacity, &PyList_Type, &samples,

      		&k, &d, &notifications, &dictID, &level, &steps, &threads)) {

      		return NULL;

      	}

      	if (threads < 0) {

      		threads = cpu_count();

      	}

      	memset(&params, 0, sizeof(params));

      	params.k = k;

      	params.d = d;

      	params.steps = steps;

      	params.nbThreads = threads;

      	params.zParams.notificationLevel = notifications;

      	params.zParams.dictID = dictID;

      	params.zParams.compressionLevel = level;

      	/* Figure out total size of input samples. */

      	samplesLen = PyList_Size(samples);

      	for (i = 0; i < samplesLen; i++) {

      		PyObject* sampleItem = PyList_GET_ITEM(samples, i);

      		if (!PyBytes_Check(sampleItem)) {

      			PyErr_SetString(PyExc_ValueError, "samples must be bytes");

      			return NULL;

      		}

      		samplesSize += PyBytes_GET_SIZE(sampleItem);

      	}

      	sampleBuffer = PyMem_Malloc(samplesSize);

      	if (!sampleBuffer) {

      		PyErr_NoMemory();

      		goto finally;

      	}

      	sampleSizes = PyMem_Malloc(samplesLen * sizeof(size_t));

      	if (!sampleSizes) {

      		PyErr_NoMemory();

      		goto finally;

      	}

      	sampleOffset = sampleBuffer;

      	for (i = 0; i < samplesLen; i++) {

      		PyObject* sampleItem = PyList_GET_ITEM(samples, i);

      		sampleSize = PyBytes_GET_SIZE(sampleItem);

      		sampleSizes[i] = sampleSize;

      		memcpy(sampleOffset, PyBytes_AS_STRING(sampleItem), sampleSize);

      		sampleOffset = (char*)sampleOffset + sampleSize;

      	}

      	dict = PyMem_Malloc(capacity);

      	if (!dict) {

      		PyErr_NoMemory();

      		goto finally;

      	}

      	Py_BEGIN_ALLOW_THREADS

      	/* No parameters uses the default function, which will use default params

      	   and call ZDICT_optimizeTrainFromBuffer_cover under the hood. */

      	if (!params.k && !params.d && !params.zParams.compressionLevel

      		&& !params.zParams.notificationLevel && !params.zParams.dictID) {

      		zresult = ZDICT_trainFromBuffer(dict, capacity, sampleBuffer,

      			sampleSizes, (unsigned)samplesLen);

      	}

      	/* Use optimize mode if user controlled steps or threads explicitly. */

      	else if (params.steps || params.nbThreads) {

      		zresult = ZDICT_optimizeTrainFromBuffer_cover(dict, capacity,

      			sampleBuffer, sampleSizes, (unsigned)samplesLen, &params);

      	}

      	/* Non-optimize mode with explicit control. */

      	else {

      		zresult = ZDICT_trainFromBuffer_cover(dict, capacity,

      			sampleBuffer, sampleSizes, (unsigned)samplesLen, params);

      	}

      	Py_END_ALLOW_THREADS

      	if (ZDICT_isError(zresult)) {

      		PyMem_Free(dict);

      		PyErr_Format(ZstdError, "cannot train dict: %s", ZDICT_getErrorName(zresult));

      		goto finally;

      	}

      	result = PyObject_New(ZstdCompressionDict, &ZstdCompressionDictType);

      	if (!result) {

      		PyMem_Free(dict);

      		goto finally;

      	}

      	result->dictData = dict;

      	result->dictSize = zresult;

      	result->dictType = ZSTD_dct_fullDict;

      	result->d = params.d;

      	result->k = params.k;

      	result->cdict = NULL;

      	result->ddict = NULL;

      finally:

      	PyMem_Free(sampleBuffer);

      	PyMem_Free(sampleSizes);

      	return result;

      }

      int ensure_ddict(ZstdCompressionDict* dict) {

      	if (dict->ddict) {

      		return 0;

      	}

      	Py_BEGIN_ALLOW_THREADS

      	dict->ddict = ZSTD_createDDict_advanced(dict->dictData, dict->dictSize,

      		ZSTD_dlm_byRef, dict->dictType, ZSTD_defaultCMem);

      	Py_END_ALLOW_THREADS

      	if (!dict->ddict) {

      		PyErr_SetString(ZstdError, "could not create decompression dict");

      		return 1;

      	}

      	return 0;

      }

      PyDoc_STRVAR(ZstdCompressionDict__doc__,

      "ZstdCompressionDict(data) - Represents a computed compression dictionary\n"

      "\n"

      "This type holds the results of a computed Zstandard compression dictionary.\n"

      "Instances are obtained by calling ``train_dictionary()`` or by passing\n"

      "bytes obtained from another source into the constructor.\n"

      );

      static int ZstdCompressionDict_init(ZstdCompressionDict* self, PyObject* args, PyObject* kwargs) {

      	static char* kwlist[] = {

      		"data",

      		"dict_type",

      		NULL

      	};

      	int result = -1;

      	Py_buffer source;

      	unsigned dictType = ZSTD_dct_auto;

      	self->dictData = NULL;

      	self->dictSize = 0;

      	self->cdict = NULL;

      	self->ddict = NULL;

      #if PY_MAJOR_VERSION >= 3

      	if (!PyArg_ParseTupleAndKeywords(args, kwargs, "y*|I:ZstdCompressionDict",

      #else

      	if (!PyArg_ParseTupleAndKeywords(args, kwargs, "s*|I:ZstdCompressionDict",

      #endif

      		kwlist, &source, &dictType)) {

      		return -1;

      	}

      	if (!PyBuffer_IsContiguous(&source, 'C') || source.ndim > 1) {

      		PyErr_SetString(PyExc_ValueError,

      			"data buffer should be contiguous and have at most one dimension");

      		goto finally;

      	}

      	if (dictType != ZSTD_dct_auto && dictType != ZSTD_dct_rawContent

      		&& dictType != ZSTD_dct_fullDict) {

      		PyErr_Format(PyExc_ValueError,

      			"invalid dictionary load mode: %d; must use DICT_TYPE_* constants",

      			dictType);

      		goto finally;

      	}

      	self->dictType = dictType;

      	self->dictData = PyMem_Malloc(source.len);

      	if (!self->dictData) {

      		PyErr_NoMemory();

      		goto finally;

      	}

      	memcpy(self->dictData, source.buf, source.len);

      	self->dictSize = source.len;

      	result = 0;

      finally:

      	PyBuffer_Release(&source);

      	return result;

      }

      static void ZstdCompressionDict_dealloc(ZstdCompressionDict* self) {

      	if (self->cdict) {

      		ZSTD_freeCDict(self->cdict);

      		self->cdict = NULL;

      	}

      	if (self->ddict) {

      		ZSTD_freeDDict(self->ddict);

      		self->ddict = NULL;

      	}

      	if (self->dictData) {

      		PyMem_Free(self->dictData);

      		self->dictData = NULL;

      	}

      	PyObject_Del(self);

      }

      PyDoc_STRVAR(ZstdCompressionDict_precompute_compress__doc__,

      "Precompute a dictionary so it can be used by multiple compressors.\n"

      );

      static PyObject* ZstdCompressionDict_precompute_compress(ZstdCompressionDict* self, PyObject* args, PyObject* kwargs) {

      	static char* kwlist[] = {

      		"level",

      		"compression_params",

      		NULL

      	};

      	int level = 0;

      	ZstdCompressionParametersObject* compressionParams = NULL;

      	ZSTD_compressionParameters cParams;

      	size_t zresult;

      	if (!PyArg_ParseTupleAndKeywords(args, kwargs, "|iO!:precompute_compress", kwlist,

      		&level, &ZstdCompressionParametersType, &compressionParams)) {

      		return NULL;

      	}

      	if (level && compressionParams) {

      		PyErr_SetString(PyExc_ValueError,

      			"must only specify one of level or compression_params");

      		return NULL;

      	}

      	if (!level && !compressionParams) {

      		PyErr_SetString(PyExc_ValueError,

      			"must specify one of level or compression_params");

      		return NULL;

      	}

      	if (self->cdict) {

      		zresult = ZSTD_freeCDict(self->cdict);

      		self->cdict = NULL;

      		if (ZSTD_isError(zresult)) {

      			PyErr_Format(ZstdError, "unable to free CDict: %s",

      				ZSTD_getErrorName(zresult));

      			return NULL;

      		}

      	}

      	if (level) {

      		cParams = ZSTD_getCParams(level, 0, self->dictSize);

      	}

      	else {

      		if (to_cparams(compressionParams, &cParams)) {

      			return NULL;

      		}

      	}

      	assert(!self->cdict);

      	self->cdict = ZSTD_createCDict_advanced(self->dictData, self->dictSize,

      		ZSTD_dlm_byRef, self->dictType, cParams, ZSTD_defaultCMem);

      	if (!self->cdict) {

      		PyErr_SetString(ZstdError, "unable to precompute dictionary");

      		return NULL;

      	}

      	Py_RETURN_NONE;

      }

      static PyObject* ZstdCompressionDict_dict_id(ZstdCompressionDict* self) {

      	unsigned dictID = ZDICT_getDictID(self->dictData, self->dictSize);

      	return PyLong_FromLong(dictID);

      }

      static PyObject* ZstdCompressionDict_as_bytes(ZstdCompressionDict* self) {

      	return PyBytes_FromStringAndSize(self->dictData, self->dictSize);

      }

      static PyMethodDef ZstdCompressionDict_methods[] = {

      	{ "dict_id", (PyCFunction)ZstdCompressionDict_dict_id, METH_NOARGS,

      	PyDoc_STR("dict_id() -- obtain the numeric dictionary ID") },

      	{ "as_bytes", (PyCFunction)ZstdCompressionDict_as_bytes, METH_NOARGS,

      	PyDoc_STR("as_bytes() -- obtain the raw bytes constituting the dictionary data") },

      	{ "precompute_compress", (PyCFunction)ZstdCompressionDict_precompute_compress,

      	METH_VARARGS | METH_KEYWORDS, ZstdCompressionDict_precompute_compress__doc__ },

      	{ NULL, NULL }

      };

      static PyMemberDef ZstdCompressionDict_members[] = {

      	{ "k", T_UINT, offsetof(ZstdCompressionDict, k), READONLY,

      	  "segment size" },

      	{ "d", T_UINT, offsetof(ZstdCompressionDict, d), READONLY,

      	  "dmer size" },

      	{ NULL }

      };

      static Py_ssize_t ZstdCompressionDict_length(ZstdCompressionDict* self) {

      	return self->dictSize;

      }

      static PySequenceMethods ZstdCompressionDict_sq = {

      	(lenfunc)ZstdCompressionDict_length, /* sq_length */

      	0,                                   /* sq_concat */

      	0,                                   /* sq_repeat */

      	0,                                   /* sq_item */

      	0,                                   /* sq_ass_item */

      	0,                                   /* sq_contains */

      	0,                                   /* sq_inplace_concat */

      	0                                    /* sq_inplace_repeat */

      };

      PyTypeObject ZstdCompressionDictType = {

      	PyVarObject_HEAD_INIT(NULL, 0)

      	"zstd.ZstdCompressionDict",     /* tp_name */

      	sizeof(ZstdCompressionDict),    /* tp_basicsize */

      	0,                              /* tp_itemsize */

      	(destructor)ZstdCompressionDict_dealloc, /* tp_dealloc */

      	0,                              /* tp_print */

      	0,                              /* tp_getattr */

      	0,                              /* tp_setattr */

      	0,                              /* tp_compare */

      	0,                              /* tp_repr */

      	0,                              /* tp_as_number */

      	&ZstdCompressionDict_sq,        /* tp_as_sequence */

      	0,                              /* tp_as_mapping */

      	0,                              /* tp_hash */

      	0,                              /* tp_call */

      	0,                              /* tp_str */

      	0,                              /* tp_getattro */

      	0,                              /* tp_setattro */

      	0,                              /* tp_as_buffer */

      	Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE, /* tp_flags */

      	ZstdCompressionDict__doc__,     /* tp_doc */

      	0,                              /* tp_traverse */

      	0,                              /* tp_clear */

      	0,                              /* tp_richcompare */

      	0,                              /* tp_weaklistoffset */

      	0,                              /* tp_iter */

      	0,                              /* tp_iternext */

      	ZstdCompressionDict_methods,    /* tp_methods */

      	ZstdCompressionDict_members,    /* tp_members */

      	0,                              /* tp_getset */

      	0,                              /* tp_base */

      	0,                              /* tp_dict */

      	0,                              /* tp_descr_get */

      	0,                              /* tp_descr_set */

      	0,                              /* tp_dictoffset */

      	(initproc)ZstdCompressionDict_init, /* tp_init */

      	0,                              /* tp_alloc */

      	PyType_GenericNew,              /* tp_new */

      };

      void compressiondict_module_init(PyObject* mod) {

      	Py_TYPE(&ZstdCompressionDictType) = &PyType_Type;

      	if (PyType_Ready(&ZstdCompressionDictType) < 0) {

      		return;

      	}

      	Py_INCREF((PyObject*)&ZstdCompressionDictType);

      	PyModule_AddObject(mod, "ZstdCompressionDict",

      		(PyObject*)&ZstdCompressionDictType);

      }

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				/**
				* Copyright (c) 2016-present, Gregory Szorc
				* All rights reserved.
				*
				* This software may be modified and distributed under the terms
				* of the BSD license. See the LICENSE file for details.
				*/

				#include "python-zstandard.h"

				extern PyObject* ZstdError;

				ZstdCompressionDict* train_dictionary(PyObject* self, PyObject* args, PyObject* kwargs) {
				static char* kwlist[] = {
				"dict_size",
				"samples",
				"k",
				"d",
				"notifications",
				"dict_id",
				"level",
				"steps",
				"threads",
				NULL
				};

				size_t capacity;
				PyObject* samples;
				unsigned k = 0;
				unsigned d = 0;
				unsigned notifications = 0;
				unsigned dictID = 0;
				int level = 0;
				unsigned steps = 0;
				int threads = 0;
				ZDICT_cover_params_t params;
				Py_ssize_t samplesLen;
				Py_ssize_t i;
				size_t samplesSize = 0;
				void* sampleBuffer = NULL;
				size_t* sampleSizes = NULL;
				void* sampleOffset;
				Py_ssize_t sampleSize;
				void* dict = NULL;
				size_t zresult;
				ZstdCompressionDict* result = NULL;

				if (!PyArg_ParseTupleAndKeywords(args, kwargs, "nO!\|IIIIiIi:train_dictionary",
				kwlist, &capacity, &PyList_Type, &samples,
				&k, &d, &notifications, &dictID, &level, &steps, &threads)) {
				return NULL;
				}

				if (threads < 0) {
				threads = cpu_count();
				}

				memset(&params, 0, sizeof(params));
				params.k = k;
				params.d = d;
				params.steps = steps;
				params.nbThreads = threads;
				params.zParams.notificationLevel = notifications;
				params.zParams.dictID = dictID;
				params.zParams.compressionLevel = level;

				/* Figure out total size of input samples. */
				samplesLen = PyList_Size(samples);
				for (i = 0; i < samplesLen; i++) {
				PyObject* sampleItem = PyList_GET_ITEM(samples, i);

				if (!PyBytes_Check(sampleItem)) {
				PyErr_SetString(PyExc_ValueError, "samples must be bytes");
				return NULL;
				}
				samplesSize += PyBytes_GET_SIZE(sampleItem);
				}

				sampleBuffer = PyMem_Malloc(samplesSize);
				if (!sampleBuffer) {
				PyErr_NoMemory();
				goto finally;
				}

				sampleSizes = PyMem_Malloc(samplesLen * sizeof(size_t));
				if (!sampleSizes) {
				PyErr_NoMemory();
				goto finally;
				}

				sampleOffset = sampleBuffer;
				for (i = 0; i < samplesLen; i++) {
				PyObject* sampleItem = PyList_GET_ITEM(samples, i);
				sampleSize = PyBytes_GET_SIZE(sampleItem);
				sampleSizes[i] = sampleSize;
				memcpy(sampleOffset, PyBytes_AS_STRING(sampleItem), sampleSize);
				sampleOffset = (char*)sampleOffset + sampleSize;
				}

				dict = PyMem_Malloc(capacity);
				if (!dict) {
				PyErr_NoMemory();
				goto finally;
				}

				Py_BEGIN_ALLOW_THREADS
				/* No parameters uses the default function, which will use default params
				and call ZDICT_optimizeTrainFromBuffer_cover under the hood. */
				if (!params.k && !params.d && !params.zParams.compressionLevel
				&& !params.zParams.notificationLevel && !params.zParams.dictID) {
				zresult = ZDICT_trainFromBuffer(dict, capacity, sampleBuffer,
				sampleSizes, (unsigned)samplesLen);
				}
				/* Use optimize mode if user controlled steps or threads explicitly. */
				else if (params.steps \|\| params.nbThreads) {
				zresult = ZDICT_optimizeTrainFromBuffer_cover(dict, capacity,
				sampleBuffer, sampleSizes, (unsigned)samplesLen, &params);
				}
				/* Non-optimize mode with explicit control. */
				else {
				zresult = ZDICT_trainFromBuffer_cover(dict, capacity,
				sampleBuffer, sampleSizes, (unsigned)samplesLen, params);
				}
				Py_END_ALLOW_THREADS

				if (ZDICT_isError(zresult)) {
				PyMem_Free(dict);
				PyErr_Format(ZstdError, "cannot train dict: %s", ZDICT_getErrorName(zresult));
				goto finally;
				}

				result = PyObject_New(ZstdCompressionDict, &ZstdCompressionDictType);
				if (!result) {
				PyMem_Free(dict);
				goto finally;
				}

				result->dictData = dict;
				result->dictSize = zresult;
				result->dictType = ZSTD_dct_fullDict;
				result->d = params.d;
				result->k = params.k;
				result->cdict = NULL;
				result->ddict = NULL;

				finally:
				PyMem_Free(sampleBuffer);
				PyMem_Free(sampleSizes);

				return result;
				}

				int ensure_ddict(ZstdCompressionDict* dict) {
				if (dict->ddict) {
				return 0;
				}

				Py_BEGIN_ALLOW_THREADS
				dict->ddict = ZSTD_createDDict_advanced(dict->dictData, dict->dictSize,
				ZSTD_dlm_byRef, dict->dictType, ZSTD_defaultCMem);
				Py_END_ALLOW_THREADS
				if (!dict->ddict) {
				PyErr_SetString(ZstdError, "could not create decompression dict");
				return 1;
				}

				return 0;
				}

				PyDoc_STRVAR(ZstdCompressionDict__doc__,
				"ZstdCompressionDict(data) - Represents a computed compression dictionary\n"
				"\n"
				"This type holds the results of a computed Zstandard compression dictionary.\n"
				"Instances are obtained by calling ``train_dictionary()`` or by passing\n"
				"bytes obtained from another source into the constructor.\n"
				);

				static int ZstdCompressionDict_init(ZstdCompressionDict* self, PyObject* args, PyObject* kwargs) {
				static char* kwlist[] = {
				"data",
				"dict_type",
				NULL
				};

				int result = -1;
				Py_buffer source;
				unsigned dictType = ZSTD_dct_auto;

				self->dictData = NULL;
				self->dictSize = 0;
				self->cdict = NULL;
				self->ddict = NULL;

				#if PY_MAJOR_VERSION >= 3
				if (!PyArg_ParseTupleAndKeywords(args, kwargs, "y*\|I:ZstdCompressionDict",
				#else
				if (!PyArg_ParseTupleAndKeywords(args, kwargs, "s*\|I:ZstdCompressionDict",
				#endif
				kwlist, &source, &dictType)) {
				return -1;
				}

				if (!PyBuffer_IsContiguous(&source, 'C') \|\| source.ndim > 1) {
				PyErr_SetString(PyExc_ValueError,
				"data buffer should be contiguous and have at most one dimension");
				goto finally;
				}

				if (dictType != ZSTD_dct_auto && dictType != ZSTD_dct_rawContent
				&& dictType != ZSTD_dct_fullDict) {
				PyErr_Format(PyExc_ValueError,
				"invalid dictionary load mode: %d; must use DICT_TYPE_* constants",
				dictType);
				goto finally;
				}

				self->dictType = dictType;

				self->dictData = PyMem_Malloc(source.len);
				if (!self->dictData) {
				PyErr_NoMemory();
				goto finally;
				}

				memcpy(self->dictData, source.buf, source.len);
				self->dictSize = source.len;

				result = 0;

				finally:
				PyBuffer_Release(&source);
				return result;
				}

				static void ZstdCompressionDict_dealloc(ZstdCompressionDict* self) {
				if (self->cdict) {
				ZSTD_freeCDict(self->cdict);
				self->cdict = NULL;
				}

				if (self->ddict) {
				ZSTD_freeDDict(self->ddict);
				self->ddict = NULL;
				}

				if (self->dictData) {
				PyMem_Free(self->dictData);
				self->dictData = NULL;
				}

				PyObject_Del(self);
				}

				PyDoc_STRVAR(ZstdCompressionDict_precompute_compress__doc__,
				"Precompute a dictionary so it can be used by multiple compressors.\n"
				);

				static PyObject* ZstdCompressionDict_precompute_compress(ZstdCompressionDict* self, PyObject* args, PyObject* kwargs) {
				static char* kwlist[] = {
				"level",
				"compression_params",
				NULL
				};

				int level = 0;
				ZstdCompressionParametersObject* compressionParams = NULL;
				ZSTD_compressionParameters cParams;
				size_t zresult;

				if (!PyArg_ParseTupleAndKeywords(args, kwargs, "\|iO!:precompute_compress", kwlist,
				&level, &ZstdCompressionParametersType, &compressionParams)) {
				return NULL;
				}

				if (level && compressionParams) {
				PyErr_SetString(PyExc_ValueError,
				"must only specify one of level or compression_params");
				return NULL;
				}

				if (!level && !compressionParams) {
				PyErr_SetString(PyExc_ValueError,
				"must specify one of level or compression_params");
				return NULL;
				}

				if (self->cdict) {
				zresult = ZSTD_freeCDict(self->cdict);
				self->cdict = NULL;
				if (ZSTD_isError(zresult)) {
				PyErr_Format(ZstdError, "unable to free CDict: %s",
				ZSTD_getErrorName(zresult));
				return NULL;
				}
				}

				if (level) {
				cParams = ZSTD_getCParams(level, 0, self->dictSize);
				}
				else {
				if (to_cparams(compressionParams, &cParams)) {
				return NULL;
				}
				}

				assert(!self->cdict);
				self->cdict = ZSTD_createCDict_advanced(self->dictData, self->dictSize,
				ZSTD_dlm_byRef, self->dictType, cParams, ZSTD_defaultCMem);

				if (!self->cdict) {
				PyErr_SetString(ZstdError, "unable to precompute dictionary");
				return NULL;
				}

				Py_RETURN_NONE;
				}

				static PyObject* ZstdCompressionDict_dict_id(ZstdCompressionDict* self) {
				unsigned dictID = ZDICT_getDictID(self->dictData, self->dictSize);

				return PyLong_FromLong(dictID);
				}

				static PyObject* ZstdCompressionDict_as_bytes(ZstdCompressionDict* self) {
				return PyBytes_FromStringAndSize(self->dictData, self->dictSize);
				}

				static PyMethodDef ZstdCompressionDict_methods[] = {
				{ "dict_id", (PyCFunction)ZstdCompressionDict_dict_id, METH_NOARGS,
				PyDoc_STR("dict_id() -- obtain the numeric dictionary ID") },
				{ "as_bytes", (PyCFunction)ZstdCompressionDict_as_bytes, METH_NOARGS,
				PyDoc_STR("as_bytes() -- obtain the raw bytes constituting the dictionary data") },
				{ "precompute_compress", (PyCFunction)ZstdCompressionDict_precompute_compress,
				METH_VARARGS \| METH_KEYWORDS, ZstdCompressionDict_precompute_compress__doc__ },
				{ NULL, NULL }
				};

				static PyMemberDef ZstdCompressionDict_members[] = {
				{ "k", T_UINT, offsetof(ZstdCompressionDict, k), READONLY,
				"segment size" },
				{ "d", T_UINT, offsetof(ZstdCompressionDict, d), READONLY,
				"dmer size" },
				{ NULL }
				};

				static Py_ssize_t ZstdCompressionDict_length(ZstdCompressionDict* self) {
				return self->dictSize;
				}

				static PySequenceMethods ZstdCompressionDict_sq = {
				(lenfunc)ZstdCompressionDict_length, /* sq_length */
				0, /* sq_concat */
				0, /* sq_repeat */
				0, /* sq_item */
				0, /* sq_ass_item */
				0, /* sq_contains */
				0, /* sq_inplace_concat */
				0 /* sq_inplace_repeat */
				};

				PyTypeObject ZstdCompressionDictType = {
				PyVarObject_HEAD_INIT(NULL, 0)
				"zstd.ZstdCompressionDict", /* tp_name */
				sizeof(ZstdCompressionDict), /* tp_basicsize */
				0, /* tp_itemsize */
				(destructor)ZstdCompressionDict_dealloc, /* tp_dealloc */
				0, /* tp_print */
				0, /* tp_getattr */
				0, /* tp_setattr */
				0, /* tp_compare */
				0, /* tp_repr */
				0, /* tp_as_number */
				&ZstdCompressionDict_sq, /* tp_as_sequence */
				0, /* tp_as_mapping */
				0, /* tp_hash */
				0, /* tp_call */
				0, /* tp_str */
				0, /* tp_getattro */
				0, /* tp_setattro */
				0, /* tp_as_buffer */
				Py_TPFLAGS_DEFAULT \| Py_TPFLAGS_BASETYPE, /* tp_flags */
				ZstdCompressionDict__doc__, /* tp_doc */
				0, /* tp_traverse */
				0, /* tp_clear */
				0, /* tp_richcompare */
				0, /* tp_weaklistoffset */
				0, /* tp_iter */
				0, /* tp_iternext */
				ZstdCompressionDict_methods, /* tp_methods */
				ZstdCompressionDict_members, /* tp_members */
				0, /* tp_getset */
				0, /* tp_base */
				0, /* tp_dict */
				0, /* tp_descr_get */
				0, /* tp_descr_set */
				0, /* tp_dictoffset */
				(initproc)ZstdCompressionDict_init, /* tp_init */
				0, /* tp_alloc */
				PyType_GenericNew, /* tp_new */
				};

				void compressiondict_module_init(PyObject* mod) {
				Py_TYPE(&ZstdCompressionDictType) = &PyType_Type;
				if (PyType_Ready(&ZstdCompressionDictType) < 0) {
				return;
				}

				Py_INCREF((PyObject*)&ZstdCompressionDictType);
				PyModule_AddObject(mod, "ZstdCompressionDict",
				(PyObject*)&ZstdCompressionDictType);
				}