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gerrit-public.fairphone.software / platform / external / skia / af9c1eb54d297b80f4632cc3ea789dcbd05d43b2 / . / src / sksl / SkSLConstantFolder.cpp
blob: 66f280f9b1e2b8eb1baa1f423e6ca7cad0f381c1 [file] [log] [blame]
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]1/*
2 * Copyright 2020 Google LLC
3 *
4 * Use of this source code is governed by a BSD-style license that can be
5 * found in the LICENSE file.
6 */
7
8#include "src/sksl/SkSLConstantFolder.h"
9
10#include <limits>
11
12#include "src/sksl/SkSLContext.h"
13#include "src/sksl/SkSLErrorReporter.h"
14#include "src/sksl/ir/SkSLBinaryExpression.h"
15#include "src/sksl/ir/SkSLBoolLiteral.h"
16#include "src/sksl/ir/SkSLConstructor.h"
17#include "src/sksl/ir/SkSLExpression.h"
18#include "src/sksl/ir/SkSLFloatLiteral.h"
19#include "src/sksl/ir/SkSLIntLiteral.h"
20#include "src/sksl/ir/SkSLType.h"
21#include "src/sksl/ir/SkSLVariable.h"
22#include "src/sksl/ir/SkSLVariableReference.h"
23
24namespace SkSL {
25
John Stiles8a9da732021-01-20 14:32:33 -0500[diff] [blame]26static std::unique_ptr<Expression> eliminate_no_op_boolean(const Expression& left,
27 Token::Kind op,
28 const Expression& right) {
29 SkASSERT(right.is<BoolLiteral>());
30 bool rightVal = right.as<BoolLiteral>().value();
31
32 // Detect no-op Boolean expressions and optimize them away.
33 if ((op == Token::Kind::TK_LOGICALAND && rightVal) || // (expr && true) -> (expr)
34 (op == Token::Kind::TK_LOGICALOR && !rightVal) || // (expr || false) -> (expr)
35 (op == Token::Kind::TK_LOGICALXOR && !rightVal) || // (expr ^^ false) -> (expr)
36 (op == Token::Kind::TK_EQEQ && rightVal) || // (expr == true) -> (expr)
37 (op == Token::Kind::TK_NEQ && !rightVal)) { // (expr != false) -> (expr)
38
39 return left.clone();
40 }
41
42 return nullptr;
43}
44
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]45static std::unique_ptr<Expression> short_circuit_boolean(const Expression& left,
46 Token::Kind op,
47 const Expression& right) {
48 SkASSERT(left.is<BoolLiteral>());
49 bool leftVal = left.as<BoolLiteral>().value();
50
John Stiles8a9da732021-01-20 14:32:33 -0500[diff] [blame]51 // When the literal is on the left, we can sometimes eliminate the other expression entirely.
52 if ((op == Token::Kind::TK_LOGICALAND && !leftVal) || // (false && expr) -> (false)
53 (op == Token::Kind::TK_LOGICALOR && leftVal)) { // (true || expr) -> (true)
54
55 return left.clone();
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]56 }
57
John Stiles8a9da732021-01-20 14:32:33 -0500[diff] [blame]58 // We can't eliminate the right-side expression via short-circuit, but we might still be able to
59 // simplify away a no-op expression.
60 return eliminate_no_op_boolean(right, op, left);
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]61}
62
63template <typename T>
64static std::unique_ptr<Expression> simplify_vector(const Context& context,
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]65 const Expression& left,
66 Token::Kind op,
67 const Expression& right) {
John Stiles508eba72021-01-11 13:07:47 -0500[diff] [blame]68 SkASSERT(left.type().isVector());
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]69 SkASSERT(left.type() == right.type());
70 const Type& type = left.type();
71
72 // Handle boolean operations: == !=
73 if (op == Token::Kind::TK_EQEQ || op == Token::Kind::TK_NEQ) {
74 bool equality = (op == Token::Kind::TK_EQEQ);
75
76 switch (left.compareConstant(right)) {
77 case Expression::ComparisonResult::kNotEqual:
78 equality = !equality;
79 [[fallthrough]];
80
81 case Expression::ComparisonResult::kEqual:
82 return std::make_unique<BoolLiteral>(context, left.fOffset, equality);
83
84 case Expression::ComparisonResult::kUnknown:
85 return nullptr;
86 }
87 }
88
89 // Handle floating-point arithmetic: + - * /
90 const auto vectorComponentwiseFold = [&](auto foldFn) -> std::unique_ptr<Constructor> {
91 const Type& componentType = type.componentType();
92 ExpressionArray args;
93 args.reserve_back(type.columns());
94 for (int i = 0; i < type.columns(); i++) {
95 T value = foldFn(left.getVecComponent<T>(i), right.getVecComponent<T>(i));
96 args.push_back(std::make_unique<Literal<T>>(left.fOffset, value, &componentType));
97 }
98 return std::make_unique<Constructor>(left.fOffset, &type, std::move(args));
99 };
100
101 const auto isVectorDivisionByZero = [&]() -> bool {
102 for (int i = 0; i < type.columns(); i++) {
103 if (right.getVecComponent<T>(i) == 0) {
104 return true;
105 }
106 }
107 return false;
108 };
109
110 switch (op) {
111 case Token::Kind::TK_PLUS: return vectorComponentwiseFold([](T a, T b) { return a + b; });
112 case Token::Kind::TK_MINUS: return vectorComponentwiseFold([](T a, T b) { return a - b; });
113 case Token::Kind::TK_STAR: return vectorComponentwiseFold([](T a, T b) { return a * b; });
114 case Token::Kind::TK_SLASH: {
115 if (isVectorDivisionByZero()) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]116 context.fErrors.error(right.fOffset, "division by zero");
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]117 return nullptr;
118 }
119 return vectorComponentwiseFold([](T a, T b) { return a / b; });
120 }
121 default:
122 return nullptr;
123 }
124}
125
John Stiles508eba72021-01-11 13:07:47 -0500[diff] [blame]126static Constructor splat_scalar(const Expression& scalar, const Type& type) {
127 SkASSERT(type.isVector());
128 SkASSERT(type.componentType() == scalar.type());
129
130 // Use a Constructor to splat the scalar expression across a vector.
131 ExpressionArray arg;
132 arg.push_back(scalar.clone());
133 return Constructor{scalar.fOffset, &type, std::move(arg)};
134}
135
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]136std::unique_ptr<Expression> ConstantFolder::Simplify(const Context& context,
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]137 const Expression& left,
138 Token::Kind op,
139 const Expression& right) {
John Stiles8a9da732021-01-20 14:32:33 -0500[diff] [blame]140 // Simplify the expression when both sides are constant Boolean literals.
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]141 if (left.is<BoolLiteral>() && right.is<BoolLiteral>()) {
142 bool leftVal = left.as<BoolLiteral>().value();
143 bool rightVal = right.as<BoolLiteral>().value();
144 bool result;
145 switch (op) {
146 case Token::Kind::TK_LOGICALAND: result = leftVal && rightVal; break;
147 case Token::Kind::TK_LOGICALOR: result = leftVal || rightVal; break;
148 case Token::Kind::TK_LOGICALXOR: result = leftVal ^ rightVal; break;
John Stiles26fdcbb2021-01-19 19:00:31 -0500[diff] [blame]149 case Token::Kind::TK_EQEQ: result = leftVal == rightVal; break;
150 case Token::Kind::TK_NEQ: result = leftVal != rightVal; break;
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]151 default: return nullptr;
152 }
153 return std::make_unique<BoolLiteral>(context, left.fOffset, result);
154 }
155
John Stiles8a9da732021-01-20 14:32:33 -0500[diff] [blame]156 // If the left side is a Boolean literal, apply short-circuit optimizations.
157 if (left.is<BoolLiteral>()) {
158 return short_circuit_boolean(left, op, right);
159 }
160
161 // If the right side is a Boolean literal...
162 if (right.is<BoolLiteral>()) {
163 // ... and the left side has no side effects...
164 if (!left.hasSideEffects()) {
165 // We can reverse the expressions and short-circuit optimizations are still valid.
166 return short_circuit_boolean(right, op, left);
167 }
168
169 // We can't use short-circuiting, but we can still optimize away no-op Boolean expressions.
170 return eliminate_no_op_boolean(left, op, right);
171 }
172
173 // Other than the short-circuit cases above, constant folding requires both sides to be constant
174 if (!left.isCompileTimeConstant() || !right.isCompileTimeConstant()) {
175 return nullptr;
176 }
177
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]178 // Note that we expressly do not worry about precision and overflow here -- we use the maximum
179 // precision to calculate the results and hope the result makes sense.
180 // TODO: detect and handle integer overflow properly.
181 #define RESULT(t, op) std::make_unique<t ## Literal>(context, left.fOffset, \
182 leftVal op rightVal)
183 #define URESULT(t, op) std::make_unique<t ## Literal>(context, left.fOffset, \
184 (uint64_t) leftVal op \
185 (uint64_t) rightVal)
186 if (left.is<IntLiteral>() && right.is<IntLiteral>()) {
187 SKSL_INT leftVal = left.as<IntLiteral>().value();
188 SKSL_INT rightVal = right.as<IntLiteral>().value();
189 switch (op) {
190 case Token::Kind::TK_PLUS: return URESULT(Int, +);
191 case Token::Kind::TK_MINUS: return URESULT(Int, -);
192 case Token::Kind::TK_STAR: return URESULT(Int, *);
193 case Token::Kind::TK_SLASH:
194 if (leftVal == std::numeric_limits<SKSL_INT>::min() && rightVal == -1) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]195 context.fErrors.error(right.fOffset, "arithmetic overflow");
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]196 return nullptr;
197 }
198 if (!rightVal) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]199 context.fErrors.error(right.fOffset, "division by zero");
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]200 return nullptr;
201 }
202 return RESULT(Int, /);
203 case Token::Kind::TK_PERCENT:
204 if (leftVal == std::numeric_limits<SKSL_INT>::min() && rightVal == -1) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]205 context.fErrors.error(right.fOffset, "arithmetic overflow");
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]206 return nullptr;
207 }
208 if (!rightVal) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]209 context.fErrors.error(right.fOffset, "division by zero");
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]210 return nullptr;
211 }
212 return RESULT(Int, %);
213 case Token::Kind::TK_BITWISEAND: return RESULT(Int, &);
214 case Token::Kind::TK_BITWISEOR: return RESULT(Int, |);
215 case Token::Kind::TK_BITWISEXOR: return RESULT(Int, ^);
216 case Token::Kind::TK_EQEQ: return RESULT(Bool, ==);
217 case Token::Kind::TK_NEQ: return RESULT(Bool, !=);
218 case Token::Kind::TK_GT: return RESULT(Bool, >);
219 case Token::Kind::TK_GTEQ: return RESULT(Bool, >=);
220 case Token::Kind::TK_LT: return RESULT(Bool, <);
221 case Token::Kind::TK_LTEQ: return RESULT(Bool, <=);
222 case Token::Kind::TK_SHL:
223 if (rightVal >= 0 && rightVal <= 31) {
224 return RESULT(Int, <<);
225 }
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]226 context.fErrors.error(right.fOffset, "shift value out of range");
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]227 return nullptr;
228 case Token::Kind::TK_SHR:
229 if (rightVal >= 0 && rightVal <= 31) {
230 return RESULT(Int, >>);
231 }
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]232 context.fErrors.error(right.fOffset, "shift value out of range");
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]233 return nullptr;
234
235 default:
236 return nullptr;
237 }
238 }
239
240 // Perform constant folding on pairs of floating-point literals.
241 if (left.is<FloatLiteral>() && right.is<FloatLiteral>()) {
242 SKSL_FLOAT leftVal = left.as<FloatLiteral>().value();
243 SKSL_FLOAT rightVal = right.as<FloatLiteral>().value();
244 switch (op) {
245 case Token::Kind::TK_PLUS: return RESULT(Float, +);
246 case Token::Kind::TK_MINUS: return RESULT(Float, -);
247 case Token::Kind::TK_STAR: return RESULT(Float, *);
248 case Token::Kind::TK_SLASH:
249 if (rightVal) {
250 return RESULT(Float, /);
251 }
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]252 context.fErrors.error(right.fOffset, "division by zero");
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]253 return nullptr;
254 case Token::Kind::TK_EQEQ: return RESULT(Bool, ==);
255 case Token::Kind::TK_NEQ: return RESULT(Bool, !=);
256 case Token::Kind::TK_GT: return RESULT(Bool, >);
257 case Token::Kind::TK_GTEQ: return RESULT(Bool, >=);
258 case Token::Kind::TK_LT: return RESULT(Bool, <);
259 case Token::Kind::TK_LTEQ: return RESULT(Bool, <=);
260 default: return nullptr;
261 }
262 }
263
264 // Perform constant folding on pairs of vectors.
265 const Type& leftType = left.type();
266 const Type& rightType = right.type();
267 if (leftType.isVector() && leftType == rightType) {
268 if (leftType.componentType().isFloat()) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]269 return simplify_vector<SKSL_FLOAT>(context, left, op, right);
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]270 }
271 if (leftType.componentType().isInteger()) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]272 return simplify_vector<SKSL_INT>(context, left, op, right);
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]273 }
274 return nullptr;
275 }
276
John Stiles508eba72021-01-11 13:07:47 -0500[diff] [blame]277 // Perform constant folding on vectors against scalars, e.g.: half4(2) + 2
278 if (leftType.isVector() && leftType.componentType() == rightType) {
279 if (rightType.isFloat()) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]280 return simplify_vector<SKSL_FLOAT>(context, left, op, splat_scalar(right, left.type()));
John Stiles508eba72021-01-11 13:07:47 -0500[diff] [blame]281 }
282 if (rightType.isInteger()) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]283 return simplify_vector<SKSL_INT>(context, left, op, splat_scalar(right, left.type()));
John Stiles508eba72021-01-11 13:07:47 -0500[diff] [blame]284 }
285 return nullptr;
286 }
287
288 // Perform constant folding on scalars against vectors, e.g.: 2 + half4(2)
289 if (rightType.isVector() && rightType.componentType() == leftType) {
290 if (leftType.isFloat()) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]291 return simplify_vector<SKSL_FLOAT>(context, splat_scalar(left, right.type()), op,
292 right);
John Stiles508eba72021-01-11 13:07:47 -0500[diff] [blame]293 }
294 if (leftType.isInteger()) {
John Stilesb30151e2021-01-11 16:13:08 -0500[diff] [blame]295 return simplify_vector<SKSL_INT>(context, splat_scalar(left, right.type()), op, right);
John Stiles508eba72021-01-11 13:07:47 -0500[diff] [blame]296 }
297 return nullptr;
298 }
299
John Stilesdc8ec312021-01-11 11:05:21 -0500[diff] [blame]300 // Perform constant folding on pairs of matrices.
301 if (leftType.isMatrix() && rightType.isMatrix()) {
302 bool equality;
303 switch (op) {
304 case Token::Kind::TK_EQEQ:
305 equality = true;
306 break;
307 case Token::Kind::TK_NEQ:
308 equality = false;
309 break;
310 default:
311 return nullptr;
312 }
313
314 switch (left.compareConstant(right)) {
315 case Expression::ComparisonResult::kNotEqual:
316 equality = !equality;
317 [[fallthrough]];
318
319 case Expression::ComparisonResult::kEqual:
320 return std::make_unique<BoolLiteral>(context, left.fOffset, equality);
321
322 case Expression::ComparisonResult::kUnknown:
323 return nullptr;
324 }
325 }
326
327 // We aren't able to constant-fold.
328 #undef RESULT
329 #undef URESULT
330 return nullptr;
331}
332
333} // namespace SkSL