Add missing instruction commentaries

2019-03-11 05:13:35 -03:00 · 2019-03-11 05:13:35 -03:00 · 3fa70013b8
commit 3fa70013b8
parent 4b1c1d1e38
1 changed files with 246 additions and 6 deletions
--- a/include/sirit/sirit.h
+++ b/include/sirit/sirit.h
@ -340,83 +340,128 @@ public:
    // Logical
    /// Result is true if x is an IEEE NaN, otherwise result is false.
    Id OpIsNan(Id result_type, Id operand);
    /// Result is true if x is an IEEE Inf, otherwise result is false.
    Id OpIsInf(Id result_type, Id operand);
    /// Result is true if Operand 1 and Operand 2 have the same value. Result is false if Operand 1
    /// and Operand 2 have different values.
    Id OpLogicalEqual(Id result_type, Id operand_1, Id operand_2);
    /// Result is true if Operand 1 and Operand 2 have different values. Result is false if Operand
    /// 1 and Operand 2 have the same value.
    Id OpLogicalNotEqual(Id result_type, Id operand_1, Id operand_2);
    /// Result is true if either Operand 1 or Operand 2 is true. Result is false if both Operand 1
    /// and Operand 2 are false.
    Id OpLogicalOr(Id result_type, Id operand_1, Id operand_2);
    /// Result is true if both Operand 1 and Operand 2 are true. Result is false if either Operand 1
    /// or Operand 2 are false.
    Id OpLogicalAnd(Id result_type, Id operand_1, Id operand_2);
    /// Result is true if Operand is false. Result is false if Operand is true.
    Id OpLogicalNot(Id result_type, Id operand);
    /// Select components from two objects.
    Id OpSelect(Id result_type, Id condition, Id operand_1, Id operand_2);
    /// Integer comparison for equality.
    Id OpIEqual(Id result_type, Id operand_1, Id operand_2);
    /// Integer comparison for inequality.
    Id OpINotEqual(Id result_type, Id operand_1, Id operand_2);
    /// Unsigned-integer comparison if Operand 1 is greater than Operand 2.
    Id OpUGreaterThan(Id result_type, Id operand_1, Id operand_2);
    /// Signed-integer comparison if Operand 1 is greater than Operand 2.
    Id OpSGreaterThan(Id result_type, Id operand_1, Id operand_2);
    /// Unsigned-integer comparison if Operand 1 is greater than or equal to Operand 2.
    Id OpUGreaterThanEqual(Id result_type, Id operand_1, Id operand_2);
    /// Signed-integer comparison if Operand 1 is greater than or equal to Operand 2.
    Id OpSGreaterThanEqual(Id result_type, Id operand_1, Id operand_2);
    /// Unsigned-integer comparison if Operand 1 is less than Operand 2.
    Id OpULessThan(Id result_type, Id operand_1, Id operand_2);
    /// Signed-integer comparison if Operand 1 is less than Operand 2.
    Id OpSLessThan(Id result_type, Id operand_1, Id operand_2);
    /// Unsigned-integer comparison if Operand 1 is less than or equal to Operand 2.
    Id OpULessThanEqual(Id result_type, Id operand_1, Id operand_2);
    /// Signed-integer comparison if Operand 1 is less than or equal to Operand 2.
    Id OpSLessThanEqual(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison for being ordered and equal.
    Id OpFOrdEqual(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison for being unordered or equal.
    Id OpFUnordEqual(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison for being ordered and not equal.
    Id OpFOrdNotEqual(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison for being unordered or not equal.
    Id OpFUnordNotEqual(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison if operands are ordered and Operand 1 is less than Operand 2.
    Id OpFOrdLessThan(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison if operands are unordered or Operand 1 is less than Operand 2.
    Id OpFUnordLessThan(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison if operands are ordered and Operand 1 is greater than Operand 2.
    Id OpFOrdGreaterThan(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison if operands are unordered or Operand 1 is greater than Operand 2.
    Id OpFUnordGreaterThan(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison if operands are ordered and Operand 1 is less than or equal to
    /// Operand 2.
    Id OpFOrdLessThanEqual(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison if operands are unordered or Operand 1 is less than or equal to
    /// Operand 2.
    Id OpFUnordLessThanEqual(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison if operands are ordered and Operand 1 is greater than or equal to
    /// Operand 2.
    Id OpFOrdGreaterThanEqual(Id result_type, Id operand_1, Id operand_2);
    /// Floating-point comparison if operands are unordered or Operand 1 is greater than or equal to
    /// Operand 2.
    Id OpFUnordGreaterThanEqual(Id result_type, Id operand_1, Id operand_2);
    // Conversion
    /// Convert (value preserving) from floating point to unsigned integer, with round toward 0.0.
    Id OpConvertFToU(Id result_type, Id operand);
    /// Convert (value preserving) from floating point to signed integer, with round toward 0.0.
    Id OpConvertFToS(Id result_type, Id operand);
    /// Convert (value preserving) from signed integer to floating point.
    Id OpConvertSToF(Id result_type, Id operand);
    /// Convert (value preserving) from unsigned integer to floating point.
    Id OpConvertUToF(Id result_type, Id operand);
    /// Convert (value preserving) unsigned width. This is either a truncate or a zero extend.
    Id OpUConvert(Id result_type, Id operand);
    /// Convert (value preserving) signed width. This is either a truncate or a sign extend.
    Id OpSConvert(Id result_type, Id operand);
    /// Convert (value preserving) floating-point width.
    Id OpFConvert(Id result_type, Id operand);
    /// Quantize a floating-point value to what is expressible by a 16-bit floating-point value.
    Id OpQuantizeToF16(Id result_type, Id operand);
    /// Bit pattern-preserving type conversion.
@ -449,14 +494,19 @@ public:
    /// Does a bitwise Not on the operand.
    Id OpNot(Id result_type, Id operand);
    /// Make a copy of an object, with a modified bit field that comes from another object.
    Id OpBitFieldInsert(Id result_type, Id base, Id insert, Id offset, Id count);
    /// Extract a bit field from an object, with sign extension.
    Id OpBitFieldSExtract(Id result_type, Id base, Id offset, Id count);
    /// Extract a bit field from an object, without sign extension.
    Id OpBitFieldUExtract(Id result_type, Id base, Id offset, Id count);
    /// Reverse the bits in an object.
    Id OpBitReverse(Id result_type, Id base);
    /// Count the number of set bits in an object.
    Id OpBitCount(Id result_type, Id base);
    // Arithmetic
@ -515,6 +565,7 @@ public:
    Id OpExtInst(Id result_type, Id set, std::uint32_t instruction,
                 const std::vector<Id>& operands);
    /// Execute an instruction in an imported set of extended instructions.
    template <typename... Ts>
    Id OpExtInst(Id result_type, Id set, std::uint32_t instruction, Ts&&... operands) {
        return OpExtInst(result_type, set, instruction, {operands...});
@ -523,148 +574,337 @@ public:
    /// Result is x if x >= 0; otherwise result is -x.
    Id OpFAbs(Id result_type, Id x);
    /// Result is x if x >= 0; otherwise result is -x.
    Id OpSAbs(Id result_type, Id x);
    /// Result is the value equal to the nearest whole number to x. The fraction 0.5 will round in a
    /// direction chosen by the implementation, presumably the direction that is fastest.
    Id OpRound(Id result_type, Id x);
    /// Result is the value equal to the nearest whole number to x. A fractional part of 0.5 will
    /// round toward the nearest even whole number.
    Id OpRoundEven(Id result_type, Id x);
    /// Result is the value equal to the nearest whole number to x whose absolute value is not
    /// larger than the absolute value of x.
    Id OpTrunc(Id result_type, Id x);
    /// Result is 1.0 if x > 0, 0.0 if x = 0, or -1.0 if x < 0.
    Id OpFSign(Id result_type, Id x);
    /// Result is 1 if x > 0, 0 if x = 0, or -1 if x < 0, where x is interpreted as a signed
    /// integer.
    Id OpSSign(Id result_type, Id x);
    /// Result is the value equal to the nearest whole number that is less than or equal to x.
    Id OpFloor(Id result_type, Id x);
    /// Result is the value equal to the nearest whole number that is greater than or equal to x.
    Id OpCeil(Id result_type, Id x);
    /// Result is x - floor x.
    Id OpFract(Id result_type, Id x);
    /// The standard trigonometric sine of x radians.
    Id OpSin(Id result_type, Id x);
    /// The standard trigonometric cosine of x radians.
    Id OpCos(Id result_type, Id x);
    /// Arc sine. Result is an angle, in radians, whose sine is x. The range of result values is
    /// [-pi / 2, pi / 2]. Result is undefined if abs x > 1.
    Id OpAsin(Id result_type, Id x);
    /// Arc cosine. Result is an angle, in radians, whose cosine is x. The range of result values is
    /// [0, pi]. Result is undefined if abs x > 1.
    Id OpAcos(Id result_type, Id x);
    /// Result is x raised to the y power. Result is undefined if x < 0. Result is undefined if x =
    /// 0 and y <= 0.
    Id OpPow(Id result_type, Id x, Id y);
    /// Result is the natural exponentiation of x.
    Id OpExp(Id result_type, Id x);
    /// Result is the natural logarithm of x.  Result is undefined if x <= 0.
    Id OpLog(Id result_type, Id x);
    /// Result is 2 raised to the x power.
    Id OpExp2(Id result_type, Id x);
    /// Result is the base-2 logarithm of x. Result is undefined if x <= 0.
    Id OpLog2(Id result_type, Id x);
    /// Result is the square root of x. Result is undefined if x < 0.
    Id OpSqrt(Id result_type, Id x);
    /// Result is the reciprocal of sqrt x. Result is undefined if x <= 0.
    Id OpInverseSqrt(Id result_type, Id x);
    /// Result is y if y < x; otherwise result is x. Which operand is the result is undefined if one
    /// of the operands is a NaN.
    Id OpFMin(Id result_type, Id x, Id y);
    /// Result is y if y < x; otherwise result is x, where x and y are interpreted as unsigned
    /// integers.
    Id OpUMin(Id result_type, Id x, Id y);
    /// Result is y if y < x; otherwise result is x, where x and y are interpreted as signed
    /// integers.
    Id OpSMin(Id result_type, Id x, Id y);
    /// Result is y if x < y; otherwise result is x. Which operand is the result is undefined if one
    /// of the operands is a NaN.
    Id OpFMax(Id result_type, Id x, Id y);
    /// Result is y if x < y; otherwise result is x, where x and y are interpreted as unsigned
    /// integers.
    Id OpUMax(Id result_type, Id x, Id y);
    /// Result is y if x < y; otherwise result is x, where x and y are interpreted as signed
    /// integers.
    Id OpSMax(Id result_type, Id x, Id y);
-    Id OpFClamp(Id result_type, Id x, Id minVal, Id maxVal);
+    /// Result is min(max(x, minVal), maxVal). Result is undefined if minVal > maxVal.The semantics
    /// used by min() and max() are those of FMin and FMax.
    Id OpFClamp(Id result_type, Id x, Id min_val, Id max_val);
-    Id OpUClamp(Id result_type, Id x, Id minVal, Id maxVal);
+    /// Result is min(max(x, minVal), maxVal), where x, minVal and maxVal are interpreted as
    /// unsigned integers. Result is undefined if minVal > maxVal.
    Id OpUClamp(Id result_type, Id x, Id min_val, Id max_val);
-    Id OpSClamp(Id result_type, Id x, Id minVal, Id maxVal);
+    /// Result is min(max(x, minVal), maxVal), where x, minVal and maxVal are interpreted as signed
    /// integers. Result is undefined if minVal > maxVal.
    Id OpSClamp(Id result_type, Id x, Id min_val, Id max_val);
    /// Computes a * b + c.
    Id OpFma(Id result_type, Id a, Id b, Id c);
    /// Result is the unsigned integer obtained by converting the components of a two-component
    /// floating-point vector to the 16-bit OpTypeFloat, and then packing these two 16-bit integers
    /// into a 32-bit unsigned integer.
    Id OpPackHalf2x16(Id result_type, Id v);
    /// Result is the two-component floating-point vector with components obtained by unpacking a
    /// 32-bit unsigned integer into a pair of 16-bit values.
    Id OpUnpackHalf2x16(Id result_type, Id v);
-    Id OpFindILsb(Id result_type, Id Value);
+    /// Integer least-significant bit.
    Id OpFindILsb(Id result_type, Id value);
-    Id OpFindSMsb(Id result_type, Id Value);
+    /// Signed-integer most-significant bit, with value interpreted as a signed integer.
    Id OpFindSMsb(Id result_type, Id value);
-    Id OpFindUMsb(Id result_type, Id Value);
+    /// Unsigned-integer most-significant bit.
    Id OpFindUMsb(Id result_type, Id value);
    /// Result is the value of the input interpolant sampled at a location inside both the pixel and
    /// the primitive being processed.
    Id OpInterpolateAtCentroid(Id result_type, Id interpolant);
    /// Result is the value of the input interpolant variable at the location of sample number
    /// sample.
    Id OpInterpolateAtSample(Id result_type, Id interpolant, Id sample);
    /// Result is the value of the input interpolant variable sampled at an offset from the center
    /// of the pixel specified by offset.
    Id OpInterpolateAtOffset(Id result_type, Id interpolant, Id offset);
    // Image
    /// Create a sampled image, containing both a sampler and an image.
    Id OpSampledImage(Id result_type, Id image, Id sampler);
    /// Sample an image with an implicit level of detail.
    Id OpImageSampleImplicitLod(Id result_type, Id sampled_image, Id coordinate,
                                std::optional<spv::ImageOperandsMask> image_operands = {},
                                const std::vector<Id>& operands = {});
    /// Sample an image with an implicit level of detail.
    template <typename... Ts>
    Id OpImageSampleImplicitLod(Id result_type, Id sampled_image, Id coordinate,
                                spv::ImageOperandsMask image_operands, Ts&&... operands) {
        return OpImageSampleImplicitLod(result_type, sampled_image, coordinate, image_operands,
                                        {operands...});
    }
    /// Sample an image using an explicit level of detail.
    Id OpImageSampleExplicitLod(Id result_type, Id sampled_image, Id coordinate,
                                spv::ImageOperandsMask image_operands, Id lod,
                                const std::vector<Id>& operands = {});
    /// Sample an image using an explicit level of detail.
    template <typename... Ts>
    Id OpImageSampleExplicitLod(Id result_type, Id sampled_image, Id coordinate,
                                spv::ImageOperandsMask image_operands, Id lod, Ts&&... operands) {
        return OpImageSampleExplicitLod(result_type, sampled_image, coordinate, image_operands, lod,
                                        {operands...});
    }
    /// Sample an image doing depth-comparison with an implicit level of detail.
    Id OpImageSampleDrefImplicitLod(Id result_type, Id sampled_image, Id coordinate, Id dref,
                                    std::optional<spv::ImageOperandsMask> image_operands = {},
                                    const std::vector<Id>& operands = {});
    /// Sample an image doing depth-comparison with an implicit level of detail.
    template <typename... Ts>
    Id OpImageSampleDrefImplicitLod(Id result_type, Id sampled_image, Id coordinate, Id dref,
                                    spv::ImageOperandsMask image_operands, Ts&&... operands) {
        return OpImageSampleDrefImplicitLod(result_type, sampled_image, coordinate, dref,
                                            image_operands, {operands...});
    }
    /// Sample an image doing depth-comparison using an explicit level of detail.
    Id OpImageSampleDrefExplicitLod(Id result_type, Id sampled_image, Id coordinate, Id dref,
                                    spv::ImageOperandsMask image_operands, Id lod,
                                    const std::vector<Id>& operands = {});
    /// Sample an image doing depth-comparison using an explicit level of detail.
    template <typename... Ts>
    Id OpImageSampleDrefExplicitLod(Id result_type, Id sampled_image, Id coordinate, Id dref,
                                    spv::ImageOperandsMask image_operands, Id lod,
                                    Ts&&... operands) {
        return OpImageSampleDrefExplicitLod(result_type, sampled_image, coordinate, dref,
                                            image_operands, lod, {operands...});
    }
    /// Sample an image with with a project coordinate and an implicit level of detail.
    Id OpImageSampleProjImplicitLod(Id result_type, Id sampled_image, Id coordinate,
                                    std::optional<spv::ImageOperandsMask> image_operands = {},
                                    const std::vector<Id>& operands = {});
    /// Sample an image with with a project coordinate and an implicit level of detail.
    template <typename... Ts>
    Id OpImageSampleProjImplicitLod(Id result_type, Id sampled_image, Id coordinate,
                                    spv::ImageOperandsMask image_operands, Ts&&... operands) {
        return OpImageSampleProjImplicitLod(result_type, sampled_image, coordinate, image_operands,
                                            {operands...});
    }
    /// Sample an image with a project coordinate using an explicit level of detail.
    Id OpImageSampleProjExplicitLod(Id result_type, Id sampled_image, Id coordinate,
                                    spv::ImageOperandsMask image_operands, Id lod,
                                    const std::vector<Id>& operands = {});
    /// Sample an image with a project coordinate using an explicit level of detail.
    template <typename... Ts>
    Id OpImageSampleProjExplicitLod(Id result_type, Id sampled_image, Id coordinate,
                                    spv::ImageOperandsMask image_operands, Id lod,
                                    Ts&&... operands) {
        return OpImageSampleProjExplicitLod(result_type, sampled_image, coordinate, image_operands,
                                            lod, {operands...});
    }
    /// Sample an image with a project coordinate, doing depth-comparison, with an implicit level of
    /// detail.
    Id OpImageSampleProjDrefImplicitLod(Id result_type, Id sampled_image, Id coordinate, Id dref,
                                        std::optional<spv::ImageOperandsMask> image_operands = {},
                                        const std::vector<Id>& operands = {});
    /// Sample an image with a project coordinate, doing depth-comparison, with an implicit level of
    /// detail.
    template <typename... Ts>
    Id OpImageSampleProjDrefImplicitLod(Id result_type, Id sampled_image, Id coordinate, Id dref,
                                        spv::ImageOperandsMask image_operands, Ts&&... operands) {
        return OpImageSampleProjDrefImplicitLod(result_type, sampled_image, coordinate, dref,
                                                image_operands, {operands...});
    }
    /// Sample an image with a project coordinate, doing depth-comparison, using an explicit level
    /// of detail.
    Id OpImageSampleProjDrefExplicitLod(Id result_type, Id sampled_image, Id coordinate, Id dref,
                                        spv::ImageOperandsMask image_operands, Id lod,
                                        const std::vector<Id>& operands = {});
    /// Sample an image with a project coordinate, doing depth-comparison, using an explicit level
    /// of detail.
    template <typename... Ts>
    Id OpImageSampleProjDrefExplicitLod(Id result_type, Id sampled_image, Id coordinate, Id dref,
                                        spv::ImageOperandsMask image_operands, Id lod,
                                        Ts&&... operands) {
        return OpImageSampleProjDrefExplicitLod(result_type, sampled_image, coordinate, dref,
                                                image_operands, lod, {operands...});
    }
    /// Fetch a single texel from an image whose Sampled operand is 1.
    Id OpImageFetch(Id result_type, Id sampled_image, Id coordinate,
                    std::optional<spv::ImageOperandsMask> image_operands = {},
                    const std::vector<Id>& operands = {});
    /// Fetch a single texel from an image whose Sampled operand is 1.
    template <typename... Ts>
    Id OpImageFetch(Id result_type, Id sampled_image, Id coordinate,
                    spv::ImageOperandsMask image_operands, Ts&&... operands) {
        return OpImageFetch(result_type, sampled_image, coordinate, image_operands, {operands...});
    }
    /// Gathers the requested component from four texels.
    Id OpImageGather(Id result_type, Id sampled_image, Id coordinate, Id component,
                     std::optional<spv::ImageOperandsMask> image_operands = {},
                     const std::vector<Id>& operands = {});
    /// Gathers the requested component from four texels.
    template <typename... Ts>
    Id OpImageGather(Id result_type, Id sampled_image, Id coordinate, Id component,
                     spv::ImageOperandsMask image_operands, Ts&&... operands) {
        return OpImageGather(result_type, sampled_image, coordinate, component, image_operands,
                             {operands...});
    }
    /// Gathers the requested depth-comparison from four texels.
    Id OpImageDrefGather(Id result_type, Id sampled_image, Id coordinate, Id dref,
                         std::optional<spv::ImageOperandsMask> image_operands = {},
                         const std::vector<Id>& operands = {});
    /// Gathers the requested depth-comparison from four texels.
    template <typename... Ts>
    Id OpImageDrefGather(Id result_type, Id sampled_image, Id coordinate, Id dref,
                         spv::ImageOperandsMask image_operands, Ts&&... operands) {
        return OpImageDrefGather(result_type, sampled_image, coordinate, dref, image_operands,
                                 {operands...});
    }
    /// Read a texel from an image without a sampler.
    Id OpImageRead(Id result_type, Id sampled_image, Id coordinate,
                   std::optional<spv::ImageOperandsMask> image_operands = {},
                   const std::vector<Id>& operands = {});
    /// Read a texel from an image without a sampler.
    template <typename... Ts>
    Id OpImageRead(Id result_type, Id sampled_image, Id coordinate,
                   spv::ImageOperandsMask image_operands, Ts&&... operands) {
        return OpImageRead(result_type, sampled_image, coordinate, image_operands, {operands...});
    }
    /// Write a texel to an image without a sampler.
    Id OpImageWrite(Id image, Id coordinate, Id texel,
                    std::optional<spv::ImageOperandsMask> image_operands = {},
                    const std::vector<Id>& operands = {});
    /// Write a texel to an image without a sampler.
    template <typename... Ts>
    Id OpImageWrite(Id image, Id coordinate, Id texel, spv::ImageOperandsMask image_operands,
                    Ts&&... operands) {
        return OpImageWrite(image, coordinate, texel, image_operands, {operands...});
    }
    /// Extract the image from a sampled image.
    Id OpImage(Id result_type, Id sampled_image);
    /// Query the dimensions of Image for mipmap level for Level of Detail.
    Id OpImageQuerySizeLod(Id result_type, Id image, Id level_of_detail);
    /// Query the dimensions of Image, with no level of detail.
    Id OpImageQuerySize(Id result_type, Id image);
    /// Query the mipmap level and the level of detail for a hypothetical sampling of Image at
    /// Coordinate using an implicit level of detail.
    Id OpImageQueryLod(Id result_type, Id image, Id coordinate);
    /// Query the number of mipmap levels accessible through Image.
    Id OpImageQueryLevels(Id result_type, Id image);
    /// Query the number of samples available per texel fetch in a multisample image.
    Id OpImageQuerySamples(Id result_type, Id image);
 private: