[pcsx_rearmed.git] / deps / libchdr / deps / zstd-1.5.6 / programs / lorem.c

/*
 * Copyright (c) Meta Platforms, Inc. and affiliates.
 * All rights reserved.
 *
 * This source code is licensed under both the BSD-style license (found in the
 * LICENSE file in the root directory of this source tree) and the GPLv2 (found
 * in the COPYING file in the root directory of this source tree).
 * You may select, at your option, one of the above-listed licenses.
 */

/* Implementation notes:
 *
 * This is a very simple lorem ipsum generator
 * which features a static list of words
 * and print them one after another randomly
 * with a fake sentence / paragraph structure.
 *
 * The goal is to generate a printable text
 * that can be used to fake a text compression scenario.
 * The resulting compression / ratio curve of the lorem ipsum generator
 * is more satisfying than the previous statistical generator,
 * which was initially designed for entropy compression,
 * and lacks a regularity more representative of text.
 *
 * The compression ratio achievable on the generated lorem ipsum
 * is still a bit too good, presumably because the dictionary is a bit too
 * small. It would be possible to create some more complex scheme, notably by
 * enlarging the dictionary with a word generator, and adding grammatical rules
 * (composition) and syntax rules. But that's probably overkill for the intended
 * goal.
 */

#include "lorem.h"
#include <assert.h>
#include <limits.h> /* INT_MAX */
#include <string.h> /* memcpy */

#define WORD_MAX_SIZE 20

/* Define the word pool */
static const char* kWords[] = {
    "lorem",        "ipsum",      "dolor",       "sit",          "amet",
    "consectetur",  "adipiscing", "elit",        "sed",          "do",
    "eiusmod",      "tempor",     "incididunt",  "ut",           "labore",
    "et",           "dolore",     "magna",       "aliqua",       "dis",
    "lectus",       "vestibulum", "mattis",      "ullamcorper",  "velit",
    "commodo",      "a",          "lacus",       "arcu",         "magnis",
    "parturient",   "montes",     "nascetur",    "ridiculus",    "mus",
    "mauris",       "nulla",      "malesuada",   "pellentesque", "eget",
    "gravida",      "in",         "dictum",      "non",          "erat",
    "nam",          "voluptat",   "maecenas",    "blandit",      "aliquam",
    "etiam",        "enim",       "lobortis",    "scelerisque",  "fermentum",
    "dui",          "faucibus",   "ornare",      "at",           "elementum",
    "eu",           "facilisis",  "odio",        "morbi",        "quis",
    "eros",         "donec",      "ac",          "orci",         "purus",
    "turpis",       "cursus",     "leo",         "vel",          "porta",
    "consequat",    "interdum",   "varius",      "vulputate",    "aliquet",
    "pharetra",     "nunc",       "auctor",      "urna",         "id",
    "metus",        "viverra",    "nibh",        "cras",         "mi",
    "unde",         "omnis",      "iste",        "natus",        "error",
    "perspiciatis", "voluptatem", "accusantium", "doloremque",   "laudantium",
    "totam",        "rem",        "aperiam",     "eaque",        "ipsa",
    "quae",         "ab",         "illo",        "inventore",    "veritatis",
    "quasi",        "architecto", "beatae",      "vitae",        "dicta",
    "sunt",         "explicabo",  "nemo",        "ipsam",        "quia",
    "voluptas",     "aspernatur", "aut",         "odit",         "fugit",
    "consequuntur", "magni",      "dolores",     "eos",          "qui",
    "ratione",      "sequi",      "nesciunt",    "neque",        "porro",
    "quisquam",     "est",        "dolorem",     "adipisci",     "numquam",
    "eius",         "modi",       "tempora",     "incidunt",     "magnam",
    "quaerat",      "ad",         "minima",      "veniam",       "nostrum",
    "ullam",        "corporis",   "suscipit",    "laboriosam",   "nisi",
    "aliquid",      "ex",         "ea",          "commodi",      "consequatur",
    "autem",        "eum",        "iure",        "voluptate",    "esse",
    "quam",         "nihil",      "molestiae",   "illum",        "fugiat",
    "quo",          "pariatur",   "vero",        "accusamus",    "iusto",
    "dignissimos",  "ducimus",    "blanditiis",  "praesentium",  "voluptatum",
    "deleniti",     "atque",      "corrupti",    "quos",         "quas",
    "molestias",    "excepturi",  "sint",        "occaecati",    "cupiditate",
    "provident",    "similique",  "culpa",       "officia",      "deserunt",
    "mollitia",     "animi",      "laborum",     "dolorum",      "fuga",
    "harum",        "quidem",     "rerum",       "facilis",      "expedita",
    "distinctio",   "libero",     "tempore",     "cum",          "soluta",
    "nobis",        "eligendi",   "optio",       "cumque",       "impedit",
    "minus",        "quod",       "maxime",      "placeat",      "facere",
    "possimus",     "assumenda",  "repellendus", "temporibus",   "quibusdam",
    "officiis",     "debitis",    "saepe",       "eveniet",      "voluptates",
    "repudiandae",  "recusandae", "itaque",      "earum",        "hic",
    "tenetur",      "sapiente",   "delectus",    "reiciendis",   "cillum",
    "maiores",      "alias",      "perferendis", "doloribus",    "asperiores",
    "repellat",     "minim",      "nostrud",     "exercitation", "ullamco",
    "laboris",      "aliquip",    "duis",        "aute",         "irure",
};
static const unsigned kNbWords = sizeof(kWords) / sizeof(kWords[0]);

/* simple 1-dimension distribution, based on word's length, favors small words
 */
static const int kWeights[]    = { 0, 8, 6, 4, 3, 2 };
static const size_t kNbWeights = sizeof(kWeights) / sizeof(kWeights[0]);

#define DISTRIB_SIZE_MAX 650
static int g_distrib[DISTRIB_SIZE_MAX] = { 0 };
static unsigned g_distribCount         = 0;

static void countFreqs(
        const char* words[],
        size_t nbWords,
        const int* weights,
        size_t nbWeights)
{
    unsigned total = 0;
    size_t w;
    for (w = 0; w < nbWords; w++) {
        size_t len = strlen(words[w]);
        int lmax;
        if (len >= nbWeights)
            len = nbWeights - 1;
        lmax = weights[len];
        total += (unsigned)lmax;
    }
    g_distribCount = total;
    assert(g_distribCount <= DISTRIB_SIZE_MAX);
}

static void init_word_distrib(
        const char* words[],
        size_t nbWords,
        const int* weights,
        size_t nbWeights)
{
    size_t w, d = 0;
    countFreqs(words, nbWords, weights, nbWeights);
    for (w = 0; w < nbWords; w++) {
        size_t len = strlen(words[w]);
        int l, lmax;
        if (len >= nbWeights)
            len = nbWeights - 1;
        lmax = weights[len];
        for (l = 0; l < lmax; l++) {
            g_distrib[d++] = (int)w;
        }
    }
}

/* Note: this unit only works when invoked sequentially.
 * No concurrent access is allowed */
static char* g_ptr         = NULL;
static size_t g_nbChars    = 0;
static size_t g_maxChars   = 10000000;
static unsigned g_randRoot = 0;

#define RDG_rotl32(x, r) ((x << r) | (x >> (32 - r)))
static unsigned LOREM_rand(unsigned range)
{
    static const unsigned prime1 = 2654435761U;
    static const unsigned prime2 = 2246822519U;
    unsigned rand32              = g_randRoot;
    rand32 *= prime1;
    rand32 ^= prime2;
    rand32     = RDG_rotl32(rand32, 13);
    g_randRoot = rand32;
    return (unsigned)(((unsigned long long)rand32 * range) >> 32);
}

static void writeLastCharacters(void)
{
    size_t lastChars = g_maxChars - g_nbChars;
    assert(g_maxChars >= g_nbChars);
    if (lastChars == 0)
        return;
    g_ptr[g_nbChars++] = '.';
    if (lastChars > 2) {
        memset(g_ptr + g_nbChars, ' ', lastChars - 2);
    }
    if (lastChars > 1) {
        g_ptr[g_maxChars - 1] = '\n';
    }
    g_nbChars = g_maxChars;
}

static void generateWord(const char* word, const char* separator, int upCase)
{
    size_t const len = strlen(word) + strlen(separator);
    if (g_nbChars + len > g_maxChars) {
        writeLastCharacters();
        return;
    }
    memcpy(g_ptr + g_nbChars, word, strlen(word));
    if (upCase) {
        static const char toUp = 'A' - 'a';
        g_ptr[g_nbChars]       = (char)(g_ptr[g_nbChars] + toUp);
    }
    g_nbChars += strlen(word);
    memcpy(g_ptr + g_nbChars, separator, strlen(separator));
    g_nbChars += strlen(separator);
}

static int about(unsigned target)
{
    return (int)(LOREM_rand(target) + LOREM_rand(target) + 1);
}

/* Function to generate a random sentence */
static void generateSentence(int nbWords)
{
    int commaPos       = about(9);
    int comma2         = commaPos + about(7);
    int qmark          = (LOREM_rand(11) == 7);
    const char* endSep = qmark ? "? " : ". ";
    int i;
    for (i = 0; i < nbWords; i++) {
        int const wordID       = g_distrib[LOREM_rand(g_distribCount)];
        const char* const word = kWords[wordID];
        const char* sep        = " ";
        if (i == commaPos)
            sep = ", ";
        if (i == comma2)
            sep = ", ";
        if (i == nbWords - 1)
            sep = endSep;
        generateWord(word, sep, i == 0);
    }
}

static void generateParagraph(int nbSentences)
{
    int i;
    for (i = 0; i < nbSentences; i++) {
        int wordsPerSentence = about(11);
        generateSentence(wordsPerSentence);
    }
    if (g_nbChars < g_maxChars) {
        g_ptr[g_nbChars++] = '\n';
    }
    if (g_nbChars < g_maxChars) {
        g_ptr[g_nbChars++] = '\n';
    }
}

/* It's "common" for lorem ipsum generators to start with the same first
 * pre-defined sentence */
static void generateFirstSentence(void)
{
    int i;
    for (i = 0; i < 18; i++) {
        const char* word      = kWords[i];
        const char* separator = " ";
        if (i == 4)
            separator = ", ";
        if (i == 7)
            separator = ", ";
        generateWord(word, separator, i == 0);
    }
    generateWord(kWords[18], ". ", 0);
}

size_t
LOREM_genBlock(void* buffer, size_t size, unsigned seed, int first, int fill)
{
    g_ptr = (char*)buffer;
    assert(size < INT_MAX);
    g_maxChars = size;
    g_nbChars  = 0;
    g_randRoot = seed;
    if (g_distribCount == 0) {
        init_word_distrib(kWords, kNbWords, kWeights, kNbWeights);
    }

    if (first) {
        generateFirstSentence();
    }
    while (g_nbChars < g_maxChars) {
        int sentencePerParagraph = about(7);
        generateParagraph(sentencePerParagraph);
        if (!fill)
            break; /* only generate one paragraph in not-fill mode */
    }
    g_ptr = NULL;
    return g_nbChars;
}

void LOREM_genBuffer(void* buffer, size_t size, unsigned seed)
{
    LOREM_genBlock(buffer, size, seed, 1, 1);
}
Commit	Line	Data
f535537f	1	/*
	2	* Copyright (c) Meta Platforms, Inc. and affiliates.
	3	* All rights reserved.
	4	*
	5	* This source code is licensed under both the BSD-style license (found in the
	6	* LICENSE file in the root directory of this source tree) and the GPLv2 (found
	7	* in the COPYING file in the root directory of this source tree).
	8	* You may select, at your option, one of the above-listed licenses.
	9	*/
	10
	11	/* Implementation notes:
	12	*
	13	* This is a very simple lorem ipsum generator
	14	* which features a static list of words
	15	* and print them one after another randomly
	16	* with a fake sentence / paragraph structure.
	17	*
	18	* The goal is to generate a printable text
	19	* that can be used to fake a text compression scenario.
	20	* The resulting compression / ratio curve of the lorem ipsum generator
	21	* is more satisfying than the previous statistical generator,
	22	* which was initially designed for entropy compression,
	23	* and lacks a regularity more representative of text.
	24	*
	25	* The compression ratio achievable on the generated lorem ipsum
	26	* is still a bit too good, presumably because the dictionary is a bit too
	27	* small. It would be possible to create some more complex scheme, notably by
	28	* enlarging the dictionary with a word generator, and adding grammatical rules
	29	* (composition) and syntax rules. But that's probably overkill for the intended
	30	* goal.
	31	*/
	32
	33	#include "lorem.h"
	34	#include <assert.h>
	35	#include <limits.h> /* INT_MAX */
	36	#include <string.h> /* memcpy */
	37
	38	#define WORD_MAX_SIZE 20
	39
	40	/* Define the word pool */
	41	static const char* kWords[] = {
	42	"lorem", "ipsum", "dolor", "sit", "amet",
	43	"consectetur", "adipiscing", "elit", "sed", "do",
	44	"eiusmod", "tempor", "incididunt", "ut", "labore",
	45	"et", "dolore", "magna", "aliqua", "dis",
	46	"lectus", "vestibulum", "mattis", "ullamcorper", "velit",
	47	"commodo", "a", "lacus", "arcu", "magnis",
	48	"parturient", "montes", "nascetur", "ridiculus", "mus",
	49	"mauris", "nulla", "malesuada", "pellentesque", "eget",
	50	"gravida", "in", "dictum", "non", "erat",
	51	"nam", "voluptat", "maecenas", "blandit", "aliquam",
	52	"etiam", "enim", "lobortis", "scelerisque", "fermentum",
	53	"dui", "faucibus", "ornare", "at", "elementum",
	54	"eu", "facilisis", "odio", "morbi", "quis",
	55	"eros", "donec", "ac", "orci", "purus",
	56	"turpis", "cursus", "leo", "vel", "porta",
	57	"consequat", "interdum", "varius", "vulputate", "aliquet",
	58	"pharetra", "nunc", "auctor", "urna", "id",
	59	"metus", "viverra", "nibh", "cras", "mi",
	60	"unde", "omnis", "iste", "natus", "error",
	61	"perspiciatis", "voluptatem", "accusantium", "doloremque", "laudantium",
	62	"totam", "rem", "aperiam", "eaque", "ipsa",
	63	"quae", "ab", "illo", "inventore", "veritatis",
	64	"quasi", "architecto", "beatae", "vitae", "dicta",
65	"sunt", "explicabo", "nemo", "ipsam", "quia",
66	"voluptas", "aspernatur", "aut", "odit", "fugit",
67	"consequuntur", "magni", "dolores", "eos", "qui",
68	"ratione", "sequi", "nesciunt", "neque", "porro",
69	"quisquam", "est", "dolorem", "adipisci", "numquam",
70	"eius", "modi", "tempora", "incidunt", "magnam",
71	"quaerat", "ad", "minima", "veniam", "nostrum",
72	"ullam", "corporis", "suscipit", "laboriosam", "nisi",
73	"aliquid", "ex", "ea", "commodi", "consequatur",
74	"autem", "eum", "iure", "voluptate", "esse",
75	"quam", "nihil", "molestiae", "illum", "fugiat",
76	"quo", "pariatur", "vero", "accusamus", "iusto",
77	"dignissimos", "ducimus", "blanditiis", "praesentium", "voluptatum",
78	"deleniti", "atque", "corrupti", "quos", "quas",
79	"molestias", "excepturi", "sint", "occaecati", "cupiditate",
80	"provident", "similique", "culpa", "officia", "deserunt",
81	"mollitia", "animi", "laborum", "dolorum", "fuga",
82	"harum", "quidem", "rerum", "facilis", "expedita",
83	"distinctio", "libero", "tempore", "cum", "soluta",
84	"nobis", "eligendi", "optio", "cumque", "impedit",
85	"minus", "quod", "maxime", "placeat", "facere",
86	"possimus", "assumenda", "repellendus", "temporibus", "quibusdam",
87	"officiis", "debitis", "saepe", "eveniet", "voluptates",
88	"repudiandae", "recusandae", "itaque", "earum", "hic",
89	"tenetur", "sapiente", "delectus", "reiciendis", "cillum",
90	"maiores", "alias", "perferendis", "doloribus", "asperiores",
91	"repellat", "minim", "nostrud", "exercitation", "ullamco",
92	"laboris", "aliquip", "duis", "aute", "irure",
93	};
94	static const unsigned kNbWords = sizeof(kWords) / sizeof(kWords[0]);
95
96	/* simple 1-dimension distribution, based on word's length, favors small words
97	*/
98	static const int kWeights[] = { 0, 8, 6, 4, 3, 2 };
99	static const size_t kNbWeights = sizeof(kWeights) / sizeof(kWeights[0]);
100
101	#define DISTRIB_SIZE_MAX 650
102	static int g_distrib[DISTRIB_SIZE_MAX] = { 0 };
103	static unsigned g_distribCount = 0;
104
105	static void countFreqs(
106	const char* words[],
107	size_t nbWords,
108	const int* weights,
109	size_t nbWeights)
110	{
111	unsigned total = 0;
112	size_t w;
113	for (w = 0; w < nbWords; w++) {
114	size_t len = strlen(words[w]);
115	int lmax;
116	if (len >= nbWeights)
117	len = nbWeights - 1;
118	lmax = weights[len];
119	total += (unsigned)lmax;
120	}
121	g_distribCount = total;
122	assert(g_distribCount <= DISTRIB_SIZE_MAX);
123	}
124
125	static void init_word_distrib(
126	const char* words[],
127	size_t nbWords,
128	const int* weights,
129	size_t nbWeights)
130	{
131	size_t w, d = 0;
132	countFreqs(words, nbWords, weights, nbWeights);
133	for (w = 0; w < nbWords; w++) {
134	size_t len = strlen(words[w]);
135	int l, lmax;
136	if (len >= nbWeights)
137	len = nbWeights - 1;
138	lmax = weights[len];
139	for (l = 0; l < lmax; l++) {
140	g_distrib[d++] = (int)w;
141	}
142	}
143	}
144
145	/* Note: this unit only works when invoked sequentially.
146	* No concurrent access is allowed */
147	static char* g_ptr = NULL;
148	static size_t g_nbChars = 0;
149	static size_t g_maxChars = 10000000;
150	static unsigned g_randRoot = 0;
151
152	#define RDG_rotl32(x, r) ((x << r) \| (x >> (32 - r)))
153	static unsigned LOREM_rand(unsigned range)
154	{
155	static const unsigned prime1 = 2654435761U;
156	static const unsigned prime2 = 2246822519U;
157	unsigned rand32 = g_randRoot;
158	rand32 *= prime1;
159	rand32 ^= prime2;
160	rand32 = RDG_rotl32(rand32, 13);
161	g_randRoot = rand32;
162	return (unsigned)(((unsigned long long)rand32 * range) >> 32);
163	}
164
165	static void writeLastCharacters(void)
166	{
167	size_t lastChars = g_maxChars - g_nbChars;
168	assert(g_maxChars >= g_nbChars);
169	if (lastChars == 0)
170	return;
171	g_ptr[g_nbChars++] = '.';
172	if (lastChars > 2) {
173	memset(g_ptr + g_nbChars, ' ', lastChars - 2);
174	}
175	if (lastChars > 1) {
176	g_ptr[g_maxChars - 1] = '\n';
177	}
178	g_nbChars = g_maxChars;
179	}
180
181	static void generateWord(const char* word, const char* separator, int upCase)
182	{
183	size_t const len = strlen(word) + strlen(separator);
184	if (g_nbChars + len > g_maxChars) {
185	writeLastCharacters();
186	return;
187	}
188	memcpy(g_ptr + g_nbChars, word, strlen(word));
189	if (upCase) {
190	static const char toUp = 'A' - 'a';
191	g_ptr[g_nbChars] = (char)(g_ptr[g_nbChars] + toUp);
192	}
193	g_nbChars += strlen(word);
194	memcpy(g_ptr + g_nbChars, separator, strlen(separator));
195	g_nbChars += strlen(separator);
196	}
197
198	static int about(unsigned target)
199	{
200	return (int)(LOREM_rand(target) + LOREM_rand(target) + 1);
201	}
202
203	/* Function to generate a random sentence */
204	static void generateSentence(int nbWords)
205	{
206	int commaPos = about(9);
207	int comma2 = commaPos + about(7);
208	int qmark = (LOREM_rand(11) == 7);
209	const char* endSep = qmark ? "? " : ". ";
210	int i;
211	for (i = 0; i < nbWords; i++) {
212	int const wordID = g_distrib[LOREM_rand(g_distribCount)];
213	const char* const word = kWords[wordID];
214	const char* sep = " ";
215	if (i == commaPos)
216	sep = ", ";
217	if (i == comma2)
218	sep = ", ";
219	if (i == nbWords - 1)
220	sep = endSep;
221	generateWord(word, sep, i == 0);
222	}
223	}
224
225	static void generateParagraph(int nbSentences)
226	{
227	int i;
228	for (i = 0; i < nbSentences; i++) {
229	int wordsPerSentence = about(11);
230	generateSentence(wordsPerSentence);
231	}
232	if (g_nbChars < g_maxChars) {
233	g_ptr[g_nbChars++] = '\n';
234	}
235	if (g_nbChars < g_maxChars) {
236	g_ptr[g_nbChars++] = '\n';
237	}
238	}
239
240	/* It's "common" for lorem ipsum generators to start with the same first
241	* pre-defined sentence */
242	static void generateFirstSentence(void)
243	{
244	int i;
245	for (i = 0; i < 18; i++) {
246	const char* word = kWords[i];
247	const char* separator = " ";
248	if (i == 4)
249	separator = ", ";
250	if (i == 7)
251	separator = ", ";
252	generateWord(word, separator, i == 0);
253	}
254	generateWord(kWords[18], ". ", 0);
255	}
256
257	size_t
258	LOREM_genBlock(void* buffer, size_t size, unsigned seed, int first, int fill)
259	{
260	g_ptr = (char*)buffer;
261	assert(size < INT_MAX);
262	g_maxChars = size;
263	g_nbChars = 0;
264	g_randRoot = seed;
265	if (g_distribCount == 0) {
266	init_word_distrib(kWords, kNbWords, kWeights, kNbWeights);
267	}
268
269	if (first) {
270	generateFirstSentence();
271	}
272	while (g_nbChars < g_maxChars) {
273	int sentencePerParagraph = about(7);
274	generateParagraph(sentencePerParagraph);
275	if (!fill)
276	break; /* only generate one paragraph in not-fill mode */
277	}
278	g_ptr = NULL;
279	return g_nbChars;
280	}
281
282	void LOREM_genBuffer(void* buffer, size_t size, unsigned seed)
283	{
284	LOREM_genBlock(buffer, size, seed, 1, 1);
285	}