src/sksl/ir/SkSLType.cpp - skia - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "src/sksl/SkSLContext.h"
 #include "src/sksl/ir/SkSLType.h"

 namespace SkSL {

 int Type::coercionCost(const Type& other) const {
     if (*this == other) {
         return 0;
     }
     if (this->kind() == kNullable_Kind && other.kind() != kNullable_Kind) {
         int result = this->componentType().coercionCost(other);
         if (result != INT_MAX) {
             ++result;
         }
         return result;
     }
     if (this->fName == "null" && other.kind() == kNullable_Kind) {
         return 0;
     }
     if (this->kind() == kVector_Kind && other.kind() == kVector_Kind) {
         if (this->columns() == other.columns()) {
             return this->componentType().coercionCost(other.componentType());
         }
         return INT_MAX;
     }
     if (this->kind() == kMatrix_Kind) {
         if (this->columns() == other.columns() && this->rows() == other.rows()) {
             return this->componentType().coercionCost(other.componentType());
         }
         return INT_MAX;
     }
     if (this->isNumber() && other.isNumber() && other.priority() > this->priority()) {
         return other.priority() - this->priority();
     }
     for (size_t i = 0; i < fCoercibleTypes.size(); i++) {
         if (*fCoercibleTypes[i] == other) {
             return (int) i + 1;
         }
     }
     return INT_MAX;
 }

 const Type& Type::toCompound(const Context& context, int columns, int rows) const {
     SkASSERT(this->kind() == Type::kScalar_Kind);
     if (columns == 1 && rows == 1) {
         return *this;
     }
     if (*this == *context.fFloat_Type || *this == *context.fFloatLiteral_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fFloat2_Type;
                     case 3: return *context.fFloat3_Type;
                     case 4: return *context.fFloat4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             case 2:
                 switch (columns) {
                     case 2: return *context.fFloat2x2_Type;
                     case 3: return *context.fFloat3x2_Type;
                     case 4: return *context.fFloat4x2_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             case 3:
                 switch (columns) {
                     case 2: return *context.fFloat2x3_Type;
                     case 3: return *context.fFloat3x3_Type;
                     case 4: return *context.fFloat4x3_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             case 4:
                 switch (columns) {
                     case 2: return *context.fFloat2x4_Type;
                     case 3: return *context.fFloat3x4_Type;
                     case 4: return *context.fFloat4x4_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fHalf_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fHalf2_Type;
                     case 3: return *context.fHalf3_Type;
                     case 4: return *context.fHalf4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             case 2:
                 switch (columns) {
                     case 2: return *context.fHalf2x2_Type;
                     case 3: return *context.fHalf3x2_Type;
                     case 4: return *context.fHalf4x2_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             case 3:
                 switch (columns) {
                     case 2: return *context.fHalf2x3_Type;
                     case 3: return *context.fHalf3x3_Type;
                     case 4: return *context.fHalf4x3_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             case 4:
                 switch (columns) {
                     case 2: return *context.fHalf2x4_Type;
                     case 3: return *context.fHalf3x4_Type;
                     case 4: return *context.fHalf4x4_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fDouble_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fDouble2_Type;
                     case 3: return *context.fDouble3_Type;
                     case 4: return *context.fDouble4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             case 2:
                 switch (columns) {
                     case 2: return *context.fDouble2x2_Type;
                     case 3: return *context.fDouble3x2_Type;
                     case 4: return *context.fDouble4x2_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             case 3:
                 switch (columns) {
                     case 2: return *context.fDouble2x3_Type;
                     case 3: return *context.fDouble3x3_Type;
                     case 4: return *context.fDouble4x3_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             case 4:
                 switch (columns) {
                     case 2: return *context.fDouble2x4_Type;
                     case 3: return *context.fDouble3x4_Type;
                     case 4: return *context.fDouble4x4_Type;
                     default: ABORT("unsupported matrix column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fInt_Type || *this == *context.fIntLiteral_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fInt2_Type;
                     case 3: return *context.fInt3_Type;
                     case 4: return *context.fInt4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fShort_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fShort2_Type;
                     case 3: return *context.fShort3_Type;
                     case 4: return *context.fShort4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fByte_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fByte2_Type;
                     case 3: return *context.fByte3_Type;
                     case 4: return *context.fByte4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fUInt_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fUInt2_Type;
                     case 3: return *context.fUInt3_Type;
                     case 4: return *context.fUInt4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fUShort_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fUShort2_Type;
                     case 3: return *context.fUShort3_Type;
                     case 4: return *context.fUShort4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fUByte_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fUByte2_Type;
                     case 3: return *context.fUByte3_Type;
                     case 4: return *context.fUByte4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     } else if (*this == *context.fBool_Type) {
         switch (rows) {
             case 1:
                 switch (columns) {
                     case 2: return *context.fBool2_Type;
                     case 3: return *context.fBool3_Type;
                     case 4: return *context.fBool4_Type;
                     default: ABORT("unsupported vector column count (%d)", columns);
                 }
             default: ABORT("unsupported row count (%d)", rows);
         }
     }
     ABORT("unsupported scalar_to_compound type %s", this->description().c_str());
 }

 } // namespace
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "src/sksl/SkSLContext.h"
	#include "src/sksl/ir/SkSLType.h"

	namespace SkSL {

	int Type::coercionCost(const Type& other) const {
	if (*this == other) {
	return 0;
	}
	if (this->kind() == kNullable_Kind && other.kind() != kNullable_Kind) {
	int result = this->componentType().coercionCost(other);
	if (result != INT_MAX) {
	++result;
	}
	return result;
	}
	if (this->fName == "null" && other.kind() == kNullable_Kind) {
	return 0;
	}
	if (this->kind() == kVector_Kind && other.kind() == kVector_Kind) {
	if (this->columns() == other.columns()) {
	return this->componentType().coercionCost(other.componentType());
	}
	return INT_MAX;
	}
	if (this->kind() == kMatrix_Kind) {
	if (this->columns() == other.columns() && this->rows() == other.rows()) {
	return this->componentType().coercionCost(other.componentType());
	}
	return INT_MAX;
	}
	if (this->isNumber() && other.isNumber() && other.priority() > this->priority()) {
	return other.priority() - this->priority();
	}
	for (size_t i = 0; i < fCoercibleTypes.size(); i++) {
	if (*fCoercibleTypes[i] == other) {
	return (int) i + 1;
	}
	}
	return INT_MAX;
	}

	const Type& Type::toCompound(const Context& context, int columns, int rows) const {
	SkASSERT(this->kind() == Type::kScalar_Kind);
	if (columns == 1 && rows == 1) {
	return *this;
	}
	if (this == context.fFloat_Type \|\| this == context.fFloatLiteral_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fFloat2_Type;
	case 3: return *context.fFloat3_Type;
	case 4: return *context.fFloat4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	case 2:
	switch (columns) {
	case 2: return *context.fFloat2x2_Type;
	case 3: return *context.fFloat3x2_Type;
	case 4: return *context.fFloat4x2_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	case 3:
	switch (columns) {
	case 2: return *context.fFloat2x3_Type;
	case 3: return *context.fFloat3x3_Type;
	case 4: return *context.fFloat4x3_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	case 4:
	switch (columns) {
	case 2: return *context.fFloat2x4_Type;
	case 3: return *context.fFloat3x4_Type;
	case 4: return *context.fFloat4x4_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fHalf_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fHalf2_Type;
	case 3: return *context.fHalf3_Type;
	case 4: return *context.fHalf4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	case 2:
	switch (columns) {
	case 2: return *context.fHalf2x2_Type;
	case 3: return *context.fHalf3x2_Type;
	case 4: return *context.fHalf4x2_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	case 3:
	switch (columns) {
	case 2: return *context.fHalf2x3_Type;
	case 3: return *context.fHalf3x3_Type;
	case 4: return *context.fHalf4x3_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	case 4:
	switch (columns) {
	case 2: return *context.fHalf2x4_Type;
	case 3: return *context.fHalf3x4_Type;
	case 4: return *context.fHalf4x4_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fDouble_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fDouble2_Type;
	case 3: return *context.fDouble3_Type;
	case 4: return *context.fDouble4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	case 2:
	switch (columns) {
	case 2: return *context.fDouble2x2_Type;
	case 3: return *context.fDouble3x2_Type;
	case 4: return *context.fDouble4x2_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	case 3:
	switch (columns) {
	case 2: return *context.fDouble2x3_Type;
	case 3: return *context.fDouble3x3_Type;
	case 4: return *context.fDouble4x3_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	case 4:
	switch (columns) {
	case 2: return *context.fDouble2x4_Type;
	case 3: return *context.fDouble3x4_Type;
	case 4: return *context.fDouble4x4_Type;
	default: ABORT("unsupported matrix column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fInt_Type \|\| this == context.fIntLiteral_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fInt2_Type;
	case 3: return *context.fInt3_Type;
	case 4: return *context.fInt4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fShort_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fShort2_Type;
	case 3: return *context.fShort3_Type;
	case 4: return *context.fShort4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fByte_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fByte2_Type;
	case 3: return *context.fByte3_Type;
	case 4: return *context.fByte4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fUInt_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fUInt2_Type;
	case 3: return *context.fUInt3_Type;
	case 4: return *context.fUInt4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fUShort_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fUShort2_Type;
	case 3: return *context.fUShort3_Type;
	case 4: return *context.fUShort4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fUByte_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fUByte2_Type;
	case 3: return *context.fUByte3_Type;
	case 4: return *context.fUByte4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	} else if (this == context.fBool_Type) {
	switch (rows) {
	case 1:
	switch (columns) {
	case 2: return *context.fBool2_Type;
	case 3: return *context.fBool3_Type;
	case 4: return *context.fBool4_Type;
	default: ABORT("unsupported vector column count (%d)", columns);
	}
	default: ABORT("unsupported row count (%d)", rows);
	}
	}
	ABORT("unsupported scalar_to_compound type %s", this->description().c_str());
	}

	} // namespace