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

zstd: vendor python-zstandard 0.8.0...

zstd: vendor python-zstandard 0.8.0 Commit from https://github.com/indygreg/python-zstandard is imported without modifications (other than removing unwanted files). Updates relevant to Mercurial include: * Support for multi-threaded compression (we can use this for bundle and wire protocol compression). * APIs for batch compression and decompression operations using multiple threads and optimal memory allocation mechanism. (Can be useful for revlog perf improvements.) * A ``BufferWithSegments`` type that models a single memory buffer containing N discrete items of known lengths. This type can be used for very efficient 0-copy data operations. # no-check-commit

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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.

       */

      /* A Python C extension for Zstandard. */

      #if defined(_WIN32)

      #define WIN32_LEAN_AND_MEAN

      #include <Windows.h>

      #endif

      #include "python-zstandard.h"

      PyObject *ZstdError;

      PyDoc_STRVAR(estimate_compression_context_size__doc__,

      "estimate_compression_context_size(compression_parameters)\n"

      "\n"

      "Give the amount of memory allocated for a compression context given a\n"

      "CompressionParameters instance");

      PyDoc_STRVAR(estimate_decompression_context_size__doc__,

      "estimate_decompression_context_size()\n"

      "\n"

      "Estimate the amount of memory allocated to a decompression context.\n"

      );

      static PyObject* estimate_decompression_context_size(PyObject* self) {

      	return PyLong_FromSize_t(ZSTD_estimateDCtxSize());

      }

      PyDoc_STRVAR(get_compression_parameters__doc__,

      "get_compression_parameters(compression_level[, source_size[, dict_size]])\n"

      "\n"

      "Obtains a ``CompressionParameters`` instance from a compression level and\n"

      "optional input size and dictionary size");

      PyDoc_STRVAR(get_frame_parameters__doc__,

      "get_frame_parameters(data)\n"

      "\n"

      "Obtains a ``FrameParameters`` instance by parsing data.\n");

      PyDoc_STRVAR(train_dictionary__doc__,

      "train_dictionary(dict_size, samples)\n"

      "\n"

      "Train a dictionary from sample data.\n"

      "\n"

      "A compression dictionary of size ``dict_size`` will be created from the\n"

      "iterable of samples provided by ``samples``.\n"

      "\n"

      "The raw dictionary content will be returned\n");

      PyDoc_STRVAR(train_cover_dictionary__doc__,

      "train_cover_dictionary(dict_size, samples, k=None, d=None, notifications=0, dict_id=0, level=0)\n"

      "\n"

      "Train a dictionary from sample data using the COVER algorithm.\n"

      "\n"

      "This behaves like ``train_dictionary()`` except a different algorithm is\n"

      "used to create the dictionary. The algorithm has 2 parameters: ``k`` and\n"

      "``d``. These control the *segment size* and *dmer size*. A reasonable range\n"

      "for ``k`` is ``[16, 2048+]``. A reasonable range for ``d`` is ``[6, 16]``.\n"

      "``d`` must be less than or equal to ``k``.\n"

      );

      static char zstd_doc[] = "Interface to zstandard";

      static PyMethodDef zstd_methods[] = {

      	/* TODO remove since it is a method on CompressionParameters. */

      	{ "estimate_compression_context_size", (PyCFunction)estimate_compression_context_size,

      	METH_VARARGS, estimate_compression_context_size__doc__ },

      	{ "estimate_decompression_context_size", (PyCFunction)estimate_decompression_context_size,

      	METH_NOARGS, estimate_decompression_context_size__doc__ },

      	{ "get_compression_parameters", (PyCFunction)get_compression_parameters,

      	METH_VARARGS, get_compression_parameters__doc__ },

      	{ "get_frame_parameters", (PyCFunction)get_frame_parameters,

      	METH_VARARGS, get_frame_parameters__doc__ },

      	{ "train_dictionary", (PyCFunction)train_dictionary,

      	METH_VARARGS | METH_KEYWORDS, train_dictionary__doc__ },

      	{ "train_cover_dictionary", (PyCFunction)train_cover_dictionary,

      	METH_VARARGS | METH_KEYWORDS, train_cover_dictionary__doc__ },

      	{ NULL, NULL }

      };

      void bufferutil_module_init(PyObject* mod);

      void compressobj_module_init(PyObject* mod);

      void compressor_module_init(PyObject* mod);

      void compressionparams_module_init(PyObject* mod);

      void constants_module_init(PyObject* mod);

      void compressiondict_module_init(PyObject* mod);

      void compressionwriter_module_init(PyObject* mod);

      void compressoriterator_module_init(PyObject* mod);

      void decompressor_module_init(PyObject* mod);

      void decompressobj_module_init(PyObject* mod);

      void decompressionwriter_module_init(PyObject* mod);

      void decompressoriterator_module_init(PyObject* mod);

      void frameparams_module_init(PyObject* mod);

      void zstd_module_init(PyObject* m) {

      	/* python-zstandard relies on unstable zstd C API features. This means

      	   that changes in zstd may break expectations in python-zstandard.

      	   python-zstandard is distributed with a copy of the zstd sources.

      	   python-zstandard is only guaranteed to work with the bundled version

      	   of zstd.

      	   However, downstream redistributors or packagers may unbundle zstd

      	   from python-zstandard. This can result in a mismatch between zstd

      	   versions and API semantics. This essentially "voids the warranty"

      	   of python-zstandard and may cause undefined behavior.

      	   We detect this mismatch here and refuse to load the module if this

      	   scenario is detected.

      	*/

      	if (ZSTD_VERSION_NUMBER != 10103 || ZSTD_versionNumber() != 10103) {

      		PyErr_SetString(PyExc_ImportError, "zstd C API mismatch; Python bindings not compiled against expected zstd version");

      		return;

      	}

      	bufferutil_module_init(m);

      	compressionparams_module_init(m);

      	compressiondict_module_init(m);

      	compressobj_module_init(m);

      	compressor_module_init(m);

      	compressionwriter_module_init(m);

      	compressoriterator_module_init(m);

      	constants_module_init(m);

      	decompressor_module_init(m);

      	decompressobj_module_init(m);

      	decompressionwriter_module_init(m);

      	decompressoriterator_module_init(m);

      	frameparams_module_init(m);

      }

      #if PY_MAJOR_VERSION >= 3

      static struct PyModuleDef zstd_module = {

      	PyModuleDef_HEAD_INIT,

      	"zstd",

      	zstd_doc,

      	-1,

      	zstd_methods

      };

      PyMODINIT_FUNC PyInit_zstd(void) {

      	PyObject *m = PyModule_Create(&zstd_module);

      	if (m) {

      		zstd_module_init(m);

      		if (PyErr_Occurred()) {

      			Py_DECREF(m);

      			m = NULL;

      		}

      	}

      	return m;

      }

      #else

      PyMODINIT_FUNC initzstd(void) {

      	PyObject *m = Py_InitModule3("zstd", zstd_methods, zstd_doc);

      	if (m) {

      		zstd_module_init(m);

      	}

      }

      #endif

      /* Attempt to resolve the number of CPUs in the system. */

      int cpu_count() {

      	int count = 0;

      #if defined(_WIN32)

      	SYSTEM_INFO si;

      	si.dwNumberOfProcessors = 0;

      	GetSystemInfo(&si);

      	count = si.dwNumberOfProcessors;

      #elif defined(__APPLE__)

      	int num;

      	size_t size = sizeof(int);

      	if (0 == sysctlbyname("hw.logicalcpu", &num, &size, NULL, 0)) {

      		count = num;

      	}

      #elif defined(__linux__)

      	count = sysconf(_SC_NPROCESSORS_ONLN);

      #elif defined(__OpenBSD__) || defined(__FreeBSD__) || defined(__NetBSD__) || defined(__DragonFly__)

      	int mib[2];

      	size_t len = sizeof(count);

      	mib[0] = CTL_HW;

      	mib[1] = HW_NCPU;

      	if (0 != sysctl(mib, 2, &count, &len, NULL, 0)) {

      		count = 0;

      	}

      #elif defined(__hpux)

      	count = mpctl(MPC_GETNUMSPUS, NULL, NULL);

      #endif

      	return count;

      }

      size_t roundpow2(size_t i) {

      	i--;

      	i |= i >> 1;

      	i |= i >> 2;

      	i |= i >> 4;

      	i |= i >> 8;

      	i |= i >> 16;

      	i++;

      	return i;

      }

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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.
				*/

				/* A Python C extension for Zstandard. */

				#if defined(_WIN32)
				#define WIN32_LEAN_AND_MEAN
				#include <Windows.h>
				#endif

				#include "python-zstandard.h"

				PyObject *ZstdError;

				PyDoc_STRVAR(estimate_compression_context_size__doc__,
				"estimate_compression_context_size(compression_parameters)\n"
				"\n"
				"Give the amount of memory allocated for a compression context given a\n"
				"CompressionParameters instance");

				PyDoc_STRVAR(estimate_decompression_context_size__doc__,
				"estimate_decompression_context_size()\n"
				"\n"
				"Estimate the amount of memory allocated to a decompression context.\n"
				);

				static PyObject* estimate_decompression_context_size(PyObject* self) {
				return PyLong_FromSize_t(ZSTD_estimateDCtxSize());
				}

				PyDoc_STRVAR(get_compression_parameters__doc__,
				"get_compression_parameters(compression_level[, source_size[, dict_size]])\n"
				"\n"
				"Obtains a ``CompressionParameters`` instance from a compression level and\n"
				"optional input size and dictionary size");

				PyDoc_STRVAR(get_frame_parameters__doc__,
				"get_frame_parameters(data)\n"
				"\n"
				"Obtains a ``FrameParameters`` instance by parsing data.\n");

				PyDoc_STRVAR(train_dictionary__doc__,
				"train_dictionary(dict_size, samples)\n"
				"\n"
				"Train a dictionary from sample data.\n"
				"\n"
				"A compression dictionary of size ``dict_size`` will be created from the\n"
				"iterable of samples provided by ``samples``.\n"
				"\n"
				"The raw dictionary content will be returned\n");

				PyDoc_STRVAR(train_cover_dictionary__doc__,
				"train_cover_dictionary(dict_size, samples, k=None, d=None, notifications=0, dict_id=0, level=0)\n"
				"\n"
				"Train a dictionary from sample data using the COVER algorithm.\n"
				"\n"
				"This behaves like ``train_dictionary()`` except a different algorithm is\n"
				"used to create the dictionary. The algorithm has 2 parameters: ``k`` and\n"
				"``d``. These control the segment size and dmer size. A reasonable range\n"
				"for ``k`` is ``[16, 2048+]``. A reasonable range for ``d`` is ``[6, 16]``.\n"
				"``d`` must be less than or equal to ``k``.\n"
				);

				static char zstd_doc[] = "Interface to zstandard";

				static PyMethodDef zstd_methods[] = {
				/* TODO remove since it is a method on CompressionParameters. */
				{ "estimate_compression_context_size", (PyCFunction)estimate_compression_context_size,
				METH_VARARGS, estimate_compression_context_size__doc__ },
				{ "estimate_decompression_context_size", (PyCFunction)estimate_decompression_context_size,
				METH_NOARGS, estimate_decompression_context_size__doc__ },
				{ "get_compression_parameters", (PyCFunction)get_compression_parameters,
				METH_VARARGS, get_compression_parameters__doc__ },
				{ "get_frame_parameters", (PyCFunction)get_frame_parameters,
				METH_VARARGS, get_frame_parameters__doc__ },
				{ "train_dictionary", (PyCFunction)train_dictionary,
				METH_VARARGS \| METH_KEYWORDS, train_dictionary__doc__ },
				{ "train_cover_dictionary", (PyCFunction)train_cover_dictionary,
				METH_VARARGS \| METH_KEYWORDS, train_cover_dictionary__doc__ },
				{ NULL, NULL }
				};

				void bufferutil_module_init(PyObject* mod);
				void compressobj_module_init(PyObject* mod);
				void compressor_module_init(PyObject* mod);
				void compressionparams_module_init(PyObject* mod);
				void constants_module_init(PyObject* mod);
				void compressiondict_module_init(PyObject* mod);
				void compressionwriter_module_init(PyObject* mod);
				void compressoriterator_module_init(PyObject* mod);
				void decompressor_module_init(PyObject* mod);
				void decompressobj_module_init(PyObject* mod);
				void decompressionwriter_module_init(PyObject* mod);
				void decompressoriterator_module_init(PyObject* mod);
				void frameparams_module_init(PyObject* mod);

				void zstd_module_init(PyObject* m) {
				/* python-zstandard relies on unstable zstd C API features. This means
				that changes in zstd may break expectations in python-zstandard.

				python-zstandard is distributed with a copy of the zstd sources.
				python-zstandard is only guaranteed to work with the bundled version
				of zstd.

				However, downstream redistributors or packagers may unbundle zstd
				from python-zstandard. This can result in a mismatch between zstd
				versions and API semantics. This essentially "voids the warranty"
				of python-zstandard and may cause undefined behavior.

				We detect this mismatch here and refuse to load the module if this
				scenario is detected.
				*/
				if (ZSTD_VERSION_NUMBER != 10103 \|\| ZSTD_versionNumber() != 10103) {
				PyErr_SetString(PyExc_ImportError, "zstd C API mismatch; Python bindings not compiled against expected zstd version");
				return;
				}

				bufferutil_module_init(m);
				compressionparams_module_init(m);
				compressiondict_module_init(m);
				compressobj_module_init(m);
				compressor_module_init(m);
				compressionwriter_module_init(m);
				compressoriterator_module_init(m);
				constants_module_init(m);
				decompressor_module_init(m);
				decompressobj_module_init(m);
				decompressionwriter_module_init(m);
				decompressoriterator_module_init(m);
				frameparams_module_init(m);
				}

				#if PY_MAJOR_VERSION >= 3
				static struct PyModuleDef zstd_module = {
				PyModuleDef_HEAD_INIT,
				"zstd",
				zstd_doc,
				-1,
				zstd_methods
				};

				PyMODINIT_FUNC PyInit_zstd(void) {
				PyObject *m = PyModule_Create(&zstd_module);
				if (m) {
				zstd_module_init(m);
				if (PyErr_Occurred()) {
				Py_DECREF(m);
				m = NULL;
				}
				}
				return m;
				}
				#else
				PyMODINIT_FUNC initzstd(void) {
				PyObject *m = Py_InitModule3("zstd", zstd_methods, zstd_doc);
				if (m) {
				zstd_module_init(m);
				}
				}
				#endif

				/* Attempt to resolve the number of CPUs in the system. */
				int cpu_count() {
				int count = 0;

				#if defined(_WIN32)
				SYSTEM_INFO si;
				si.dwNumberOfProcessors = 0;
				GetSystemInfo(&si);
				count = si.dwNumberOfProcessors;
				#elif defined(__APPLE__)
				int num;
				size_t size = sizeof(int);

				if (0 == sysctlbyname("hw.logicalcpu", &num, &size, NULL, 0)) {
				count = num;
				}
				#elif defined(__linux__)
				count = sysconf(_SC_NPROCESSORS_ONLN);
				#elif defined(__OpenBSD__) \|\| defined(__FreeBSD__) \|\| defined(__NetBSD__) \|\| defined(__DragonFly__)
				int mib[2];
				size_t len = sizeof(count);
				mib[0] = CTL_HW;
				mib[1] = HW_NCPU;
				if (0 != sysctl(mib, 2, &count, &len, NULL, 0)) {
				count = 0;
				}
				#elif defined(__hpux)
				count = mpctl(MPC_GETNUMSPUS, NULL, NULL);
				#endif

				return count;
				}

				size_t roundpow2(size_t i) {
				i--;
				i \|= i >> 1;
				i \|= i >> 2;
				i \|= i >> 4;
				i \|= i >> 8;
				i \|= i >> 16;
				i++;

				return i;
				}