1 /*
2 * Copyright (C) 2013 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #include <stdio.h>
18 #include <cctype>
19 #include <cstdlib>
20 #include <fstream>
21 #include <functional>
22 #include <iostream>
23 #include <memory>
24 #include <sstream>
25 #include <strings.h>
26
27 #include "Generator.h"
28 #include "Scanner.h"
29 #include "Specification.h"
30 #include "Utilities.h"
31
32 using namespace std;
33
34 // API level when RenderScript was added.
35 const unsigned int MIN_API_LEVEL = 9;
36
37 const NumericalType TYPES[] = {
38 {"f16", "FLOAT_16", "half", "short", FLOATING_POINT, 11, 5},
39 {"f32", "FLOAT_32", "float", "float", FLOATING_POINT, 24, 8},
40 {"f64", "FLOAT_64", "double", "double", FLOATING_POINT, 53, 11},
41 {"i8", "SIGNED_8", "char", "byte", SIGNED_INTEGER, 7, 0},
42 {"u8", "UNSIGNED_8", "uchar", "byte", UNSIGNED_INTEGER, 8, 0},
43 {"i16", "SIGNED_16", "short", "short", SIGNED_INTEGER, 15, 0},
44 {"u16", "UNSIGNED_16", "ushort", "short", UNSIGNED_INTEGER, 16, 0},
45 {"i32", "SIGNED_32", "int", "int", SIGNED_INTEGER, 31, 0},
46 {"u32", "UNSIGNED_32", "uint", "int", UNSIGNED_INTEGER, 32, 0},
47 {"i64", "SIGNED_64", "long", "long", SIGNED_INTEGER, 63, 0},
48 {"u64", "UNSIGNED_64", "ulong", "long", UNSIGNED_INTEGER, 64, 0},
49 };
50
51 const int NUM_TYPES = sizeof(TYPES) / sizeof(TYPES[0]);
52
53 static const char kTagUnreleased[] = "UNRELEASED";
54
55 // Patterns that get substituted with C type or RS Data type names in function
56 // names, arguments, return types, and inlines.
57 static const string kCTypePatterns[] = {"#1", "#2", "#3", "#4"};
58 static const string kRSTypePatterns[] = {"#RST_1", "#RST_2", "#RST_3", "#RST_4"};
59
60 // The singleton of the collected information of all the spec files.
61 SystemSpecification systemSpecification;
62
63 // Returns the index in TYPES for the provided cType
findCType(const string & cType)64 static int findCType(const string& cType) {
65 for (int i = 0; i < NUM_TYPES; i++) {
66 if (cType == TYPES[i].cType) {
67 return i;
68 }
69 }
70 return -1;
71 }
72
73 /* Converts a string like "u8, u16" to a vector of "ushort", "uint".
74 * For non-numerical types, we don't need to convert the abbreviation.
75 */
convertToTypeVector(const string & input)76 static vector<string> convertToTypeVector(const string& input) {
77 // First convert the string to an array of strings.
78 vector<string> entries;
79 stringstream stream(input);
80 string entry;
81 while (getline(stream, entry, ',')) {
82 trimSpaces(&entry);
83 entries.push_back(entry);
84 }
85
86 /* Second, we look for present numerical types. We do it this way
87 * so the order of numerical types is always the same, no matter
88 * how specified in the spec file.
89 */
90 vector<string> result;
91 for (auto t : TYPES) {
92 for (auto i = entries.begin(); i != entries.end(); ++i) {
93 if (*i == t.specType) {
94 result.push_back(t.cType);
95 entries.erase(i);
96 break;
97 }
98 }
99 }
100
101 // Add the remaining; they are not numerical types.
102 for (auto s : entries) {
103 result.push_back(s);
104 }
105
106 return result;
107 }
108
109 // Returns true if each entry in typeVector is an RS numerical type
isRSTValid(const vector<string> & typeVector)110 static bool isRSTValid(const vector<string> &typeVector) {
111 for (auto type: typeVector) {
112 if (findCType(type) == -1)
113 return false;
114 }
115 return true;
116 }
117
getVectorSizeAndBaseType(const string & type,string & vectorSize,string & baseType)118 void getVectorSizeAndBaseType(const string& type, string& vectorSize, string& baseType) {
119 vectorSize = "1";
120 baseType = type;
121
122 /* If it's a vector type, we need to split the base type from the size.
123 * We know that's it's a vector type if the last character is a digit and
124 * the rest is an actual base type. We used to only verify the first part,
125 * which created a problem with rs_matrix2x2.
126 */
127 const int last = type.size() - 1;
128 const char lastChar = type[last];
129 if (lastChar >= '0' && lastChar <= '9') {
130 const string trimmed = type.substr(0, last);
131 int i = findCType(trimmed);
132 if (i >= 0) {
133 baseType = trimmed;
134 vectorSize = lastChar;
135 }
136 }
137 }
138
parseParameterDefinition(const string & type,const string & name,const string & testOption,int lineNumber,bool isReturn,Scanner * scanner)139 void ParameterDefinition::parseParameterDefinition(const string& type, const string& name,
140 const string& testOption, int lineNumber,
141 bool isReturn, Scanner* scanner) {
142 rsType = type;
143 specName = name;
144
145 // Determine if this is an output.
146 isOutParameter = isReturn || charRemoved('*', &rsType);
147
148 getVectorSizeAndBaseType(rsType, mVectorSize, rsBaseType);
149 typeIndex = findCType(rsBaseType);
150
151 if (mVectorSize == "3") {
152 vectorWidth = "4";
153 } else {
154 vectorWidth = mVectorSize;
155 }
156
157 /* Create variable names to be used in the java and .rs files. Because x and
158 * y are reserved in .rs files, we prefix variable names with "in" or "out".
159 */
160 if (isOutParameter) {
161 variableName = "out";
162 if (!specName.empty()) {
163 variableName += capitalize(specName);
164 } else if (!isReturn) {
165 scanner->error(lineNumber) << "Should have a name.\n";
166 }
167 doubleVariableName = variableName + "Double";
168 } else {
169 variableName = "in";
170 if (specName.empty()) {
171 scanner->error(lineNumber) << "Should have a name.\n";
172 }
173 variableName += capitalize(specName);
174 doubleVariableName = variableName + "Double";
175 }
176 rsAllocName = "gAlloc" + capitalize(variableName);
177 javaAllocName = variableName;
178 javaArrayName = "array" + capitalize(javaAllocName);
179
180 // Process the option.
181 undefinedIfOutIsNan = false;
182 compatibleTypeIndex = -1;
183 if (!testOption.empty()) {
184 if (testOption.compare(0, 6, "range(") == 0) {
185 size_t pComma = testOption.find(',');
186 size_t pParen = testOption.find(')');
187 if (pComma == string::npos || pParen == string::npos) {
188 scanner->error(lineNumber) << "Incorrect range " << testOption << "\n";
189 } else {
190 minValue = testOption.substr(6, pComma - 6);
191 maxValue = testOption.substr(pComma + 1, pParen - pComma - 1);
192 }
193 } else if (testOption.compare(0, 6, "above(") == 0) {
194 size_t pParen = testOption.find(')');
195 if (pParen == string::npos) {
196 scanner->error(lineNumber) << "Incorrect testOption " << testOption << "\n";
197 } else {
198 smallerParameter = testOption.substr(6, pParen - 6);
199 }
200 } else if (testOption.compare(0, 11, "compatible(") == 0) {
201 size_t pParen = testOption.find(')');
202 if (pParen == string::npos) {
203 scanner->error(lineNumber) << "Incorrect testOption " << testOption << "\n";
204 } else {
205 compatibleTypeIndex = findCType(testOption.substr(11, pParen - 11));
206 }
207 } else if (testOption.compare(0, 11, "conditional") == 0) {
208 undefinedIfOutIsNan = true;
209 } else {
210 scanner->error(lineNumber) << "Unrecognized testOption " << testOption << "\n";
211 }
212 }
213
214 isFloatType = false;
215 if (typeIndex >= 0) {
216 javaBaseType = TYPES[typeIndex].javaType;
217 specType = TYPES[typeIndex].specType;
218 isFloatType = TYPES[typeIndex].exponentBits > 0;
219 }
220 if (!minValue.empty()) {
221 if (typeIndex < 0 || TYPES[typeIndex].kind != FLOATING_POINT) {
222 scanner->error(lineNumber) << "range(,) is only supported for floating point\n";
223 }
224 }
225 }
226
scan(Scanner * scanner,unsigned int maxApiLevel)227 bool VersionInfo::scan(Scanner* scanner, unsigned int maxApiLevel) {
228 if (scanner->findOptionalTag("version:")) {
229 const string s = scanner->getValue();
230 if (s.compare(0, sizeof(kTagUnreleased), kTagUnreleased) == 0) {
231 // The API is still under development and does not have
232 // an official version number.
233 minVersion = maxVersion = kUnreleasedVersion;
234 } else {
235 sscanf(s.c_str(), "%u %u", &minVersion, &maxVersion);
236 if (minVersion && minVersion < MIN_API_LEVEL) {
237 scanner->error() << "Minimum version must >= 9\n";
238 }
239 if (minVersion == MIN_API_LEVEL) {
240 minVersion = 0;
241 }
242 if (maxVersion && maxVersion < MIN_API_LEVEL) {
243 scanner->error() << "Maximum version must >= 9\n";
244 }
245 }
246 }
247 if (scanner->findOptionalTag("size:")) {
248 sscanf(scanner->getValue().c_str(), "%i", &intSize);
249 }
250
251 if (maxVersion > maxApiLevel) {
252 maxVersion = maxApiLevel;
253 }
254
255 return minVersion == 0 || minVersion <= maxApiLevel;
256 }
257
Definition(const std::string & name)258 Definition::Definition(const std::string& name)
259 : mName(name), mDeprecatedApiLevel(0), mHidden(false), mFinalVersion(-1) {
260 }
261
updateFinalVersion(const VersionInfo & info)262 void Definition::updateFinalVersion(const VersionInfo& info) {
263 /* We set it if:
264 * - We have never set mFinalVersion before, or
265 * - The max version is 0, which means we have not expired this API, or
266 * - We have a max that's later than what we currently have.
267 */
268 if (mFinalVersion < 0 || info.maxVersion == 0 ||
269 (mFinalVersion > 0 &&
270 static_cast<int>(info.maxVersion) > mFinalVersion)) {
271 mFinalVersion = info.maxVersion;
272 }
273 }
274
scanDocumentationTags(Scanner * scanner,bool firstOccurence,const SpecFile * specFile)275 void Definition::scanDocumentationTags(Scanner* scanner, bool firstOccurence,
276 const SpecFile* specFile) {
277 if (scanner->findOptionalTag("hidden:")) {
278 scanner->checkNoValue();
279 mHidden = true;
280 }
281 if (scanner->findOptionalTag("deprecated:")) {
282 string value = scanner->getValue();
283 size_t pComma = value.find(", ");
284 if (pComma != string::npos) {
285 mDeprecatedMessage = value.substr(pComma + 2);
286 value.erase(pComma);
287 }
288 sscanf(value.c_str(), "%i", &mDeprecatedApiLevel);
289 if (mDeprecatedApiLevel <= 0) {
290 scanner->error() << "deprecated entries should have a level > 0\n";
291 }
292 }
293 if (firstOccurence) {
294 if (scanner->findTag("summary:")) {
295 mSummary = scanner->getValue();
296 }
297 if (scanner->findTag("description:")) {
298 scanner->checkNoValue();
299 while (scanner->findOptionalTag("")) {
300 mDescription.push_back(scanner->getValue());
301 }
302 }
303 mUrl = specFile->getDetailedDocumentationUrl() + "#android_rs:" + mName;
304 } else if (scanner->findOptionalTag("summary:")) {
305 scanner->error() << "Only the first specification should have a summary.\n";
306 }
307 }
308
~Constant()309 Constant::~Constant() {
310 for (auto i : mSpecifications) {
311 delete i;
312 }
313 }
314
~Type()315 Type::~Type() {
316 for (auto i : mSpecifications) {
317 delete i;
318 }
319 }
320
Function(const string & name)321 Function::Function(const string& name) : Definition(name) {
322 mCapitalizedName = capitalize(mName);
323 }
324
~Function()325 Function::~Function() {
326 for (auto i : mSpecifications) {
327 delete i;
328 }
329 }
330
someParametersAreDocumented() const331 bool Function::someParametersAreDocumented() const {
332 for (auto p : mParameters) {
333 if (!p->documentation.empty()) {
334 return true;
335 }
336 }
337 return false;
338 }
339
addParameter(ParameterEntry * entry,Scanner * scanner)340 void Function::addParameter(ParameterEntry* entry, Scanner* scanner) {
341 for (auto i : mParameters) {
342 if (i->name == entry->name) {
343 // It's a duplicate.
344 if (!entry->documentation.empty()) {
345 scanner->error(entry->lineNumber)
346 << "Only the first occurence of an arg should have the "
347 "documentation.\n";
348 }
349 return;
350 }
351 }
352 mParameters.push_back(entry);
353 }
354
addReturn(ParameterEntry * entry,Scanner * scanner)355 void Function::addReturn(ParameterEntry* entry, Scanner* scanner) {
356 if (entry->documentation.empty()) {
357 return;
358 }
359 if (!mReturnDocumentation.empty()) {
360 scanner->error() << "ret: should be documented only for the first variant\n";
361 }
362 mReturnDocumentation = entry->documentation;
363 }
364
scanConstantSpecification(Scanner * scanner,SpecFile * specFile,unsigned int maxApiLevel)365 void ConstantSpecification::scanConstantSpecification(Scanner* scanner, SpecFile* specFile,
366 unsigned int maxApiLevel) {
367 string name = scanner->getValue();
368 VersionInfo info;
369 if (!info.scan(scanner, maxApiLevel)) {
370 cout << "Skipping some " << name << " definitions.\n";
371 scanner->skipUntilTag("end:");
372 return;
373 }
374
375 bool created = false;
376 Constant* constant = systemSpecification.findOrCreateConstant(name, &created);
377 ConstantSpecification* spec = new ConstantSpecification(constant);
378 constant->addSpecification(spec);
379 constant->updateFinalVersion(info);
380 specFile->addConstantSpecification(spec, created);
381 spec->mVersionInfo = info;
382
383 if (scanner->findTag("value:")) {
384 spec->mValue = scanner->getValue();
385 }
386 if (scanner->findTag("type:")) {
387 spec->mType = scanner->getValue();
388 }
389 constant->scanDocumentationTags(scanner, created, specFile);
390
391 scanner->findTag("end:");
392 }
393
scanTypeSpecification(Scanner * scanner,SpecFile * specFile,unsigned int maxApiLevel)394 void TypeSpecification::scanTypeSpecification(Scanner* scanner, SpecFile* specFile,
395 unsigned int maxApiLevel) {
396 string name = scanner->getValue();
397 VersionInfo info;
398 if (!info.scan(scanner, maxApiLevel)) {
399 cout << "Skipping some " << name << " definitions.\n";
400 scanner->skipUntilTag("end:");
401 return;
402 }
403
404 bool created = false;
405 Type* type = systemSpecification.findOrCreateType(name, &created);
406 TypeSpecification* spec = new TypeSpecification(type);
407 type->addSpecification(spec);
408 type->updateFinalVersion(info);
409 specFile->addTypeSpecification(spec, created);
410 spec->mVersionInfo = info;
411
412 if (scanner->findOptionalTag("simple:")) {
413 spec->mKind = SIMPLE;
414 spec->mSimpleType = scanner->getValue();
415 }
416 if (scanner->findOptionalTag("rs_object:")) {
417 spec->mKind = RS_OBJECT;
418 }
419 if (scanner->findOptionalTag("struct:")) {
420 spec->mKind = STRUCT;
421 spec->mStructName = scanner->getValue();
422 while (scanner->findOptionalTag("field:")) {
423 string s = scanner->getValue();
424 string comment;
425 scanner->parseDocumentation(&s, &comment);
426 spec->mFields.push_back(s);
427 spec->mFieldComments.push_back(comment);
428 }
429 }
430 if (scanner->findOptionalTag("enum:")) {
431 spec->mKind = ENUM;
432 spec->mEnumName = scanner->getValue();
433 while (scanner->findOptionalTag("value:")) {
434 string s = scanner->getValue();
435 string comment;
436 scanner->parseDocumentation(&s, &comment);
437 spec->mValues.push_back(s);
438 spec->mValueComments.push_back(comment);
439 }
440 }
441 if (scanner->findOptionalTag("attrib:")) {
442 spec->mAttribute = scanner->getValue();
443 }
444 type->scanDocumentationTags(scanner, created, specFile);
445
446 scanner->findTag("end:");
447 }
448
~FunctionSpecification()449 FunctionSpecification::~FunctionSpecification() {
450 for (auto i : mParameters) {
451 delete i;
452 }
453 delete mReturn;
454 for (auto i : mPermutations) {
455 delete i;
456 }
457 }
458
expandRSTypeInString(const string & s,const string & pattern,const string & cTypeStr) const459 string FunctionSpecification::expandRSTypeInString(const string &s,
460 const string &pattern,
461 const string &cTypeStr) const {
462 // Find index of numerical type corresponding to cTypeStr. The case where
463 // pattern is found in s but cTypeStr is not a numerical type is checked in
464 // checkRSTPatternValidity.
465 int typeIdx = findCType(cTypeStr);
466 if (typeIdx == -1) {
467 return s;
468 }
469 // If index exists, perform replacement.
470 return stringReplace(s, pattern, TYPES[typeIdx].rsDataType);
471 }
472
expandString(string s,int replacementIndexes[MAX_REPLACEABLES]) const473 string FunctionSpecification::expandString(string s,
474 int replacementIndexes[MAX_REPLACEABLES]) const {
475
476
477 for (unsigned idx = 0; idx < mReplaceables.size(); idx ++) {
478 string toString = mReplaceables[idx][replacementIndexes[idx]];
479
480 // replace #RST_i patterns with RS datatype corresponding to toString
481 s = expandRSTypeInString(s, kRSTypePatterns[idx], toString);
482
483 // replace #i patterns with C type from mReplaceables
484 s = stringReplace(s, kCTypePatterns[idx], toString);
485 }
486
487 return s;
488 }
489
expandStringVector(const vector<string> & in,int replacementIndexes[MAX_REPLACEABLES],vector<string> * out) const490 void FunctionSpecification::expandStringVector(const vector<string>& in,
491 int replacementIndexes[MAX_REPLACEABLES],
492 vector<string>* out) const {
493 out->clear();
494 for (vector<string>::const_iterator iter = in.begin(); iter != in.end(); iter++) {
495 out->push_back(expandString(*iter, replacementIndexes));
496 }
497 }
498
createPermutations(Function * function,Scanner * scanner)499 void FunctionSpecification::createPermutations(Function* function, Scanner* scanner) {
500 int start[MAX_REPLACEABLES];
501 int end[MAX_REPLACEABLES];
502 for (int i = 0; i < MAX_REPLACEABLES; i++) {
503 if (i < (int)mReplaceables.size()) {
504 start[i] = 0;
505 end[i] = mReplaceables[i].size();
506 } else {
507 start[i] = -1;
508 end[i] = 0;
509 }
510 }
511 int replacementIndexes[MAX_REPLACEABLES];
512 // TODO: These loops assume that MAX_REPLACEABLES is 4.
513 for (replacementIndexes[3] = start[3]; replacementIndexes[3] < end[3];
514 replacementIndexes[3]++) {
515 for (replacementIndexes[2] = start[2]; replacementIndexes[2] < end[2];
516 replacementIndexes[2]++) {
517 for (replacementIndexes[1] = start[1]; replacementIndexes[1] < end[1];
518 replacementIndexes[1]++) {
519 for (replacementIndexes[0] = start[0]; replacementIndexes[0] < end[0];
520 replacementIndexes[0]++) {
521 auto p = new FunctionPermutation(function, this, replacementIndexes, scanner);
522 mPermutations.push_back(p);
523 }
524 }
525 }
526 }
527 }
528
getName(int replacementIndexes[MAX_REPLACEABLES]) const529 string FunctionSpecification::getName(int replacementIndexes[MAX_REPLACEABLES]) const {
530 return expandString(mUnexpandedName, replacementIndexes);
531 }
532
getReturn(int replacementIndexes[MAX_REPLACEABLES],std::string * retType,int * lineNumber) const533 void FunctionSpecification::getReturn(int replacementIndexes[MAX_REPLACEABLES],
534 std::string* retType, int* lineNumber) const {
535 *retType = expandString(mReturn->type, replacementIndexes);
536 *lineNumber = mReturn->lineNumber;
537 }
538
getParam(size_t index,int replacementIndexes[MAX_REPLACEABLES],std::string * type,std::string * name,std::string * testOption,int * lineNumber) const539 void FunctionSpecification::getParam(size_t index, int replacementIndexes[MAX_REPLACEABLES],
540 std::string* type, std::string* name, std::string* testOption,
541 int* lineNumber) const {
542 ParameterEntry* p = mParameters[index];
543 *type = expandString(p->type, replacementIndexes);
544 *name = p->name;
545 *testOption = expandString(p->testOption, replacementIndexes);
546 *lineNumber = p->lineNumber;
547 }
548
getInlines(int replacementIndexes[MAX_REPLACEABLES],std::vector<std::string> * inlines) const549 void FunctionSpecification::getInlines(int replacementIndexes[MAX_REPLACEABLES],
550 std::vector<std::string>* inlines) const {
551 expandStringVector(mInline, replacementIndexes, inlines);
552 }
553
parseTest(Scanner * scanner)554 void FunctionSpecification::parseTest(Scanner* scanner) {
555 const string value = scanner->getValue();
556 if (value == "scalar" || value == "vector" || value == "noverify" || value == "custom" ||
557 value == "none") {
558 mTest = value;
559 } else if (value.compare(0, 7, "limited") == 0) {
560 mTest = "limited";
561 if (value.compare(7, 1, "(") == 0) {
562 size_t pParen = value.find(')');
563 if (pParen == string::npos) {
564 scanner->error() << "Incorrect test: \"" << value << "\"\n";
565 } else {
566 mPrecisionLimit = value.substr(8, pParen - 8);
567 }
568 }
569 } else {
570 scanner->error() << "Unrecognized test option: \"" << value << "\"\n";
571 }
572 }
573
hasTests(unsigned int versionOfTestFiles) const574 bool FunctionSpecification::hasTests(unsigned int versionOfTestFiles) const {
575 if (mVersionInfo.maxVersion != 0 && mVersionInfo.maxVersion < versionOfTestFiles) {
576 return false;
577 }
578 if (mTest == "none") {
579 return false;
580 }
581 return true;
582 }
583
checkRSTPatternValidity(const string & inlineStr,bool allow,Scanner * scanner)584 void FunctionSpecification::checkRSTPatternValidity(const string &inlineStr, bool allow,
585 Scanner *scanner) {
586 for (int i = 0; i < MAX_REPLACEABLES; i ++) {
587 bool patternFound = inlineStr.find(kRSTypePatterns[i]) != string::npos;
588
589 if (patternFound) {
590 if (!allow) {
591 scanner->error() << "RST_i pattern not allowed here\n";
592 }
593 else if (mIsRSTAllowed[i] == false) {
594 scanner->error() << "Found pattern \"" << kRSTypePatterns[i]
595 << "\" in spec. But some entry in the corresponding"
596 << " parameter list cannot be translated to an RS type\n";
597 }
598 }
599 }
600 }
601
scanFunctionSpecification(Scanner * scanner,SpecFile * specFile,unsigned int maxApiLevel)602 void FunctionSpecification::scanFunctionSpecification(Scanner* scanner, SpecFile* specFile,
603 unsigned int maxApiLevel) {
604 // Some functions like convert have # part of the name. Truncate at that point.
605 const string& unexpandedName = scanner->getValue();
606 string name = unexpandedName;
607 size_t p = name.find('#');
608 if (p != string::npos) {
609 if (p > 0 && name[p - 1] == '_') {
610 p--;
611 }
612 name.erase(p);
613 }
614 VersionInfo info;
615 if (!info.scan(scanner, maxApiLevel)) {
616 cout << "Skipping some " << name << " definitions.\n";
617 scanner->skipUntilTag("end:");
618 return;
619 }
620
621 bool created = false;
622 Function* function = systemSpecification.findOrCreateFunction(name, &created);
623 FunctionSpecification* spec = new FunctionSpecification(function);
624 function->addSpecification(spec);
625 function->updateFinalVersion(info);
626 specFile->addFunctionSpecification(spec, created);
627
628 spec->mUnexpandedName = unexpandedName;
629 spec->mTest = "scalar"; // default
630 spec->mVersionInfo = info;
631
632 if (scanner->findOptionalTag("internal:")) {
633 spec->mInternal = (scanner->getValue() == "true");
634 }
635 if (scanner->findOptionalTag("intrinsic:")) {
636 spec->mIntrinsic = (scanner->getValue() == "true");
637 }
638 if (scanner->findOptionalTag("attrib:")) {
639 spec->mAttribute = scanner->getValue();
640 }
641 if (scanner->findOptionalTag("w:")) {
642 vector<string> t;
643 if (scanner->getValue().find("1") != string::npos) {
644 t.push_back("");
645 }
646 if (scanner->getValue().find("2") != string::npos) {
647 t.push_back("2");
648 }
649 if (scanner->getValue().find("3") != string::npos) {
650 t.push_back("3");
651 }
652 if (scanner->getValue().find("4") != string::npos) {
653 t.push_back("4");
654 }
655 spec->mReplaceables.push_back(t);
656 // RST_i pattern not applicable for width.
657 spec->mIsRSTAllowed.push_back(false);
658 }
659
660 while (scanner->findOptionalTag("t:")) {
661 spec->mReplaceables.push_back(convertToTypeVector(scanner->getValue()));
662 spec->mIsRSTAllowed.push_back(isRSTValid(spec->mReplaceables.back()));
663 }
664
665 // Disallow RST_* pattern in function name
666 // FIXME the line number for this error would be wrong
667 spec->checkRSTPatternValidity(unexpandedName, false, scanner);
668
669 if (scanner->findTag("ret:")) {
670 ParameterEntry* p = scanner->parseArgString(true);
671 function->addReturn(p, scanner);
672 spec->mReturn = p;
673
674 // Disallow RST_* pattern in return type
675 spec->checkRSTPatternValidity(p->type, false, scanner);
676 }
677 while (scanner->findOptionalTag("arg:")) {
678 ParameterEntry* p = scanner->parseArgString(false);
679 function->addParameter(p, scanner);
680 spec->mParameters.push_back(p);
681
682 // Disallow RST_* pattern in parameter type or testOption
683 spec->checkRSTPatternValidity(p->type, false, scanner);
684 spec->checkRSTPatternValidity(p->testOption, false, scanner);
685 }
686
687 function->scanDocumentationTags(scanner, created, specFile);
688
689 if (scanner->findOptionalTag("inline:")) {
690 scanner->checkNoValue();
691 while (scanner->findOptionalTag("")) {
692 spec->mInline.push_back(scanner->getValue());
693
694 // Allow RST_* pattern in inline definitions
695 spec->checkRSTPatternValidity(spec->mInline.back(), true, scanner);
696 }
697 }
698 if (scanner->findOptionalTag("test:")) {
699 spec->parseTest(scanner);
700 }
701
702 scanner->findTag("end:");
703
704 spec->createPermutations(function, scanner);
705 }
706
FunctionPermutation(Function * func,FunctionSpecification * spec,int replacementIndexes[MAX_REPLACEABLES],Scanner * scanner)707 FunctionPermutation::FunctionPermutation(Function* func, FunctionSpecification* spec,
708 int replacementIndexes[MAX_REPLACEABLES], Scanner* scanner)
709 : mReturn(nullptr), mInputCount(0), mOutputCount(0) {
710 // We expand the strings now to make capitalization easier. The previous code preserved
711 // the #n
712 // markers just before emitting, which made capitalization difficult.
713 mName = spec->getName(replacementIndexes);
714 mNameTrunk = func->getName();
715 mTest = spec->getTest();
716 mPrecisionLimit = spec->getPrecisionLimit();
717 spec->getInlines(replacementIndexes, &mInline);
718
719 mHasFloatAnswers = false;
720 for (size_t i = 0; i < spec->getNumberOfParams(); i++) {
721 string type, name, testOption;
722 int lineNumber = 0;
723 spec->getParam(i, replacementIndexes, &type, &name, &testOption, &lineNumber);
724 ParameterDefinition* def = new ParameterDefinition();
725 def->parseParameterDefinition(type, name, testOption, lineNumber, false, scanner);
726 if (def->isOutParameter) {
727 mOutputCount++;
728 } else {
729 mInputCount++;
730 }
731
732 if (def->typeIndex < 0 && mTest != "none") {
733 scanner->error(lineNumber)
734 << "Could not find " << def->rsBaseType
735 << " while generating automated tests. Use test: none if not needed.\n";
736 }
737 if (def->isOutParameter && def->isFloatType) {
738 mHasFloatAnswers = true;
739 }
740 mParams.push_back(def);
741 }
742
743 string retType;
744 int lineNumber = 0;
745 spec->getReturn(replacementIndexes, &retType, &lineNumber);
746 if (!retType.empty()) {
747 mReturn = new ParameterDefinition();
748 mReturn->parseParameterDefinition(retType, "", "", lineNumber, true, scanner);
749 if (mReturn->isFloatType) {
750 mHasFloatAnswers = true;
751 }
752 mOutputCount++;
753 }
754 }
755
~FunctionPermutation()756 FunctionPermutation::~FunctionPermutation() {
757 for (auto i : mParams) {
758 delete i;
759 }
760 delete mReturn;
761 }
762
SpecFile(const string & specFileName)763 SpecFile::SpecFile(const string& specFileName) : mSpecFileName(specFileName) {
764 string core = mSpecFileName;
765 // Remove .spec
766 size_t l = core.length();
767 const char SPEC[] = ".spec";
768 const int SPEC_SIZE = sizeof(SPEC) - 1;
769 const int start = l - SPEC_SIZE;
770 if (start >= 0 && core.compare(start, SPEC_SIZE, SPEC) == 0) {
771 core.erase(start);
772 }
773
774 // The header file name should have the same base but with a ".rsh" extension.
775 mHeaderFileName = core + ".rsh";
776 mDetailedDocumentationUrl = core + ".html";
777 }
778
addConstantSpecification(ConstantSpecification * spec,bool hasDocumentation)779 void SpecFile::addConstantSpecification(ConstantSpecification* spec, bool hasDocumentation) {
780 mConstantSpecificationsList.push_back(spec);
781 if (hasDocumentation) {
782 Constant* constant = spec->getConstant();
783 mDocumentedConstants.insert(pair<string, Constant*>(constant->getName(), constant));
784 }
785 }
786
addTypeSpecification(TypeSpecification * spec,bool hasDocumentation)787 void SpecFile::addTypeSpecification(TypeSpecification* spec, bool hasDocumentation) {
788 mTypeSpecificationsList.push_back(spec);
789 if (hasDocumentation) {
790 Type* type = spec->getType();
791 mDocumentedTypes.insert(pair<string, Type*>(type->getName(), type));
792 }
793 }
794
addFunctionSpecification(FunctionSpecification * spec,bool hasDocumentation)795 void SpecFile::addFunctionSpecification(FunctionSpecification* spec, bool hasDocumentation) {
796 mFunctionSpecificationsList.push_back(spec);
797 if (hasDocumentation) {
798 Function* function = spec->getFunction();
799 mDocumentedFunctions.insert(pair<string, Function*>(function->getName(), function));
800 }
801 }
802
803 // Read the specification, adding the definitions to the global functions map.
readSpecFile(unsigned int maxApiLevel)804 bool SpecFile::readSpecFile(unsigned int maxApiLevel) {
805 FILE* specFile = fopen(mSpecFileName.c_str(), "rte");
806 if (!specFile) {
807 cerr << "Error opening input file: " << mSpecFileName << "\n";
808 return false;
809 }
810
811 Scanner scanner(mSpecFileName, specFile);
812
813 // Scan the header that should start the file.
814 scanner.skipBlankEntries();
815 if (scanner.findTag("header:")) {
816 if (scanner.findTag("summary:")) {
817 mBriefDescription = scanner.getValue();
818 }
819 if (scanner.findTag("description:")) {
820 scanner.checkNoValue();
821 while (scanner.findOptionalTag("")) {
822 mFullDescription.push_back(scanner.getValue());
823 }
824 }
825 if (scanner.findOptionalTag("include:")) {
826 scanner.checkNoValue();
827 while (scanner.findOptionalTag("")) {
828 mVerbatimInclude.push_back(scanner.getValue());
829 }
830 }
831 scanner.findTag("end:");
832 }
833
834 while (1) {
835 scanner.skipBlankEntries();
836 if (scanner.atEnd()) {
837 break;
838 }
839 const string tag = scanner.getNextTag();
840 if (tag == "function:") {
841 FunctionSpecification::scanFunctionSpecification(&scanner, this, maxApiLevel);
842 } else if (tag == "type:") {
843 TypeSpecification::scanTypeSpecification(&scanner, this, maxApiLevel);
844 } else if (tag == "constant:") {
845 ConstantSpecification::scanConstantSpecification(&scanner, this, maxApiLevel);
846 } else {
847 scanner.error() << "Expected function:, type:, or constant:. Found: " << tag << "\n";
848 return false;
849 }
850 }
851
852 fclose(specFile);
853 return scanner.getErrorCount() == 0;
854 }
855
~SystemSpecification()856 SystemSpecification::~SystemSpecification() {
857 for (auto i : mConstants) {
858 delete i.second;
859 }
860 for (auto i : mTypes) {
861 delete i.second;
862 }
863 for (auto i : mFunctions) {
864 delete i.second;
865 }
866 for (auto i : mSpecFiles) {
867 delete i;
868 }
869 }
870
871 // Returns the named entry in the map. Creates it if it's not there.
872 template <class T>
findOrCreate(const string & name,map<string,T * > * map,bool * created)873 T* findOrCreate(const string& name, map<string, T*>* map, bool* created) {
874 auto iter = map->find(name);
875 if (iter != map->end()) {
876 *created = false;
877 return iter->second;
878 }
879 *created = true;
880 T* f = new T(name);
881 map->insert(pair<string, T*>(name, f));
882 return f;
883 }
884
findOrCreateConstant(const string & name,bool * created)885 Constant* SystemSpecification::findOrCreateConstant(const string& name, bool* created) {
886 return findOrCreate<Constant>(name, &mConstants, created);
887 }
888
findOrCreateType(const string & name,bool * created)889 Type* SystemSpecification::findOrCreateType(const string& name, bool* created) {
890 return findOrCreate<Type>(name, &mTypes, created);
891 }
892
findOrCreateFunction(const string & name,bool * created)893 Function* SystemSpecification::findOrCreateFunction(const string& name, bool* created) {
894 return findOrCreate<Function>(name, &mFunctions, created);
895 }
896
readSpecFile(const string & fileName,unsigned int maxApiLevel)897 bool SystemSpecification::readSpecFile(const string& fileName, unsigned int maxApiLevel) {
898 SpecFile* spec = new SpecFile(fileName);
899 if (!spec->readSpecFile(maxApiLevel)) {
900 cerr << fileName << ": Failed to parse.\n";
901 return false;
902 }
903 mSpecFiles.push_back(spec);
904 return true;
905 }
906
907
updateMaxApiLevel(const VersionInfo & info,unsigned int * maxApiLevel)908 static void updateMaxApiLevel(const VersionInfo& info, unsigned int* maxApiLevel) {
909 if (info.minVersion == VersionInfo::kUnreleasedVersion) {
910 // Ignore development API level in consideration of max API level.
911 return;
912 }
913 *maxApiLevel = max(*maxApiLevel, max(info.minVersion, info.maxVersion));
914 }
915
getMaximumApiLevel()916 unsigned int SystemSpecification::getMaximumApiLevel() {
917 unsigned int maxApiLevel = 0;
918 for (auto i : mConstants) {
919 for (auto j: i.second->getSpecifications()) {
920 updateMaxApiLevel(j->getVersionInfo(), &maxApiLevel);
921 }
922 }
923 for (auto i : mTypes) {
924 for (auto j: i.second->getSpecifications()) {
925 updateMaxApiLevel(j->getVersionInfo(), &maxApiLevel);
926 }
927 }
928 for (auto i : mFunctions) {
929 for (auto j: i.second->getSpecifications()) {
930 updateMaxApiLevel(j->getVersionInfo(), &maxApiLevel);
931 }
932 }
933 return maxApiLevel;
934 }
935
generateFiles(unsigned int maxApiLevel) const936 bool SystemSpecification::generateFiles(unsigned int maxApiLevel) const {
937 bool success = generateHeaderFiles("include") &&
938 generateDocumentation("docs") &&
939 generateTestFiles("test", maxApiLevel) &&
940 generateStubsWhiteList("slangtest", maxApiLevel);
941 if (success) {
942 cout << "Successfully processed " << mTypes.size() << " types, " << mConstants.size()
943 << " constants, and " << mFunctions.size() << " functions.\n";
944 }
945 return success;
946 }
947
getHtmlAnchor(const string & name) const948 string SystemSpecification::getHtmlAnchor(const string& name) const {
949 Definition* d = nullptr;
950 auto c = mConstants.find(name);
951 if (c != mConstants.end()) {
952 d = c->second;
953 } else {
954 auto t = mTypes.find(name);
955 if (t != mTypes.end()) {
956 d = t->second;
957 } else {
958 auto f = mFunctions.find(name);
959 if (f != mFunctions.end()) {
960 d = f->second;
961 } else {
962 return string();
963 }
964 }
965 }
966 ostringstream stream;
967 stream << "<a href='" << d->getUrl() << "'>" << name << "</a>";
968 return stream.str();
969 }
970