vkd3d/tests/hlsl/interface-packing.shader_test

[vertex shader]
void main(float4 pos : POSITION, out float2 color_xy : COLOR0,
        out float2 color_zw : COLOR1, out float4 position : SV_POSITION)
{
    position = pos;
    color_xy = float2(0.25, 0.5);
    color_zw = float2(0.75, 1.0);
}

[pixel shader]
float4 main(float2 color_xy : COLOR0, float2 color_zw : COLOR1) : SV_TARGET
{
    return float4(color_xy, color_zw);
}

[test]
todo(msl & sm>=6) draw quad
probe(320, 240) rgba(0.25, 0.5, 0.75, 1.0)

% Test handling of arrays in interface blocks

[require]
shader model >= 4.0
shader model < 6.0

[input layout]

[vertex shader]
// Rules:
// 1. Arrays always start on .x
// 2. When placing a scalar or vector, search through the allocated slots for space *vertically*
//    (So check if you can place at o1.y, then o2.y, o3.y before o1.z, o2.z, etc.)
// 3. Elements with different interpolation cannot share a slot.
// 4. The first field of a struct is always aligned.
struct data
{
    float4 position : SV_Position; // Should be placed in o0
    float  array1[2] : ARRAY1;     // Should be placed in o1.x, o2.x
    float3 array3[1] : ARRAY3;     // Should be placed in o3.xyz
    float  array4[2] : ARRAY4;     // Should be placed in o4.x, o5.x
    nointerpolation float ndata : NDATA; // Should be placed in o6.x
    uint   udata : UDATA;                // Should be placed in o6.y
    float4 data1 : DATA1;          // Should be placed in o7.xyzw
    float3 data2 : DATA2;          // Should be placed in o1.yzw
    float2 data3 : DATA3;          // Should be placed in o2.yz
    float  data4 : DATA4;          // Should be placed in o4.y
    float2 data5 : DATA5;          // Should be placed in o5.yz
    float2 data6 : DATA6;          // Should be placed in o4.zw
    float  data7 : DATA7;          // Should be placed in o2.w
    float2 data8 : DATA8;          // Should be placed in o8.xy
    float  data9 : DATA9;          // Should be placed in o8.z (not o3.w)
    float  data10 : DATA10;        // Should be placed in o3.w
};

void main(uint id : SV_VertexID, out data output)
{
    output.position = float4(id & 1 ? 3 : -1, id & 2 ? -3 : 1, 0, 1);
    output.array1[0] = 1.0;
    output.array1[1] = 2.0;
    output.array3[0] = float3(3.0, 4.0, 5.0);
    output.array4[0] = 6.0;
    output.array4[1] = 7.0;
    output.data1 = float4(8.0, 9.0, 10.0, 11.0);
    output.data2 = float3(12.0, 13.0, 14.0);
    output.data3 = float2(15.0, 16.0);
    output.data4 = 17.0;
    output.data5 = float2(18.0, 19.0);
    output.data6 = float2(20.0, 21.0);
    output.data7 = 22.0;
    output.data8 = float2(23.0, 24.0);
    output.data9 = 25.0;
    output.data10 = 26.0;
    output.ndata = 27.0;
    output.udata = 28;
}

[pixel shader]
struct data
{
    float4 position : SV_Position; // v0.xyzw
    float  array1 : ARRAY1;        // v1.x
    float3 data2  : DATA2;         // v1.yzw
    float  array2 : ARRAY2;        // v2.x
    float2 data3  : DATA3;         // v2.yz
    float  data7  : DATA7;         // v2.w
    float3 array3 : ARRAY3;        // v3.xyz
    float  data10 : DATA10;        // v3.w
    float  array4 : ARRAY4;        // v4.x
    float  data4  : DATA4;         // v4.y
    float2 data6  : DATA6;         // v4.zw
    float  array5 : ARRAY5;        // v5.x
    float2 data5  : DATA5;         // v5.yz
    nointerpolation float ndata : NDATA; // v6.x
    uint   udata : UDATA;          // v6.y
    float4 data1 : DATA1;          // v7.xyzw
    float2 data8 : DATA8;          // v8.xy
    float  data9 : DATA9;          // v8.z
};

float4 main(data input) : SV_Target
{
    switch (int(input.position.x))
    {
        case 1: return float4(input.array1, input.data2);
        case 2: return float4(input.array2, input.data3, input.data7);
        case 3: return float4(input.array3, input.data10);
        case 4: return float4(input.array4, input.data4, input.data6);
        case 5: return float4(input.array5, input.data5, 0);
        case 6: return float4(input.ndata, input.udata, 0, 0);
        case 7: return input.data1;
        case 8: return float4(input.data8, input.data9, 0);
        default: return 0;
    }
}

[test]
clear rtv 0 -1.0 -1.0 -1.0 -1.0
draw triangle list 3
probe (0, 0) rgba ( 0.0,  0.0,  0.0,  0.0)
probe (1, 0) rgba ( 1.0, 12.0, 13.0, 14.0)
probe (2, 0) rgba ( 2.0, 15.0, 16.0, 22.0)
probe (3, 0) rgba ( 3.0,  4.0,  5.0, 26.0)
probe (4, 0) rgba ( 6.0, 17.0, 20.0, 21.0)
probe (5, 0) rgba ( 7.0, 18.0, 19.0,  0.0)
probe (6, 0) rgba (27.0, 28.0,  0.0,  0.0)
probe (7, 0) rgba ( 8.0,  9.0, 10.0, 11.0)
probe (8, 0) rgba (23.0, 24.0, 25.0,  0.0)

[require]
shader model >= 3.0

[input layout]
0 r32g32-float POSITION

[vb 0]
-1.0 -1.0
-1.0 3.0
3.0 -1.0

[vertex shader]
void main(float2 in_pos : POSITION, out float4 pos : SV_Position, out float4 color : COLOR)
{
    pos = float4(in_pos, 0.0f, 1.0f);
    color = float4(1.0f, 2.0f, 3.0f, 4.0f);
}

[pixel shader]
% The point of this test is to check that signature masks are handled correctly
% when they are not contiguous, so we attempt reading only component .xw from
% `color'. This happens when the shader is compiled by native, but not by us,
% currently, so the same test appears in bytecode format just below.
float4 main(float4 pos : SV_Position, float4 color : COLOR) : SV_Target
{
    return float4(color.x, 10.0f, 11.0f, color.w);
}

[test]
draw triangle list 3
probe (0, 0) rgba(1.0, 10.0, 11.0, 4.0)

[require]
shader model >= 4.0
shader model < 4.1

[pixel shader dxbc-tpf-hex]
% The same as above, but in bytecode format.
43425844 f1557687 26b262bd 9eb2bc5d 66f940c8 00000001 00000114          % DXBC header
00000003 0000002c 00000080 000000b4                                     %
4e475349 0000004c 00000002 00000008                                     % .input
00000038 00000000 00000001 00000003 00000000 0000000f                   % .param SV_Position.xyzw, v0, float, POS
00000044 00000000 00000000 00000003 00000001 0000090f                   % .param COLOR.xyzw, v1.xw, float
505f5653 7469736f 006e6f69 4f4c4f43 abab0052                            %
4e47534f 0000002c 00000001 00000008                                     % .output
00000020 00000000 00000000 00000003 00000000 0000000f                   % .param SV_Target.xyzw, o0.xyzw, float, TARGET
545f5653 65677261 abab0074                                              %
52444853 00000058 00000040 00000016                                     % .text ps_4_0
03001062 00101092 00000001                                              % dcl_input_ps linear v1.xw
03000065 001020f2 00000000                                              % dcl_output o0.xyzw
05000036 00102092 00000000 00101c06 00000001                            % mov o0.xw, v1.xxxw
08000036 00102062 00000000 00004002 00000000 41200000 41300000 00000000 % mov o0.yz, l(0, 10.0, 11.0, 0)
0100003e                                                                % ret

[test]
draw triangle list 3
probe (0, 0) rgba(1.0, 10.0, 11.0, 4.0)
tests: Add a basic shader model 6 interface packing test as well. 2024-10-14 18:36:19 +02:00			`[vertex shader]`
			`void main(float4 pos : POSITION, out float2 color_xy : COLOR0,`
			`out float2 color_zw : COLOR1, out float4 position : SV_POSITION)`
			`{`
			`position = pos;`
			`color_xy = float2(0.25, 0.5);`
			`color_zw = float2(0.75, 1.0);`
			`}`

			`[pixel shader]`
			`float4 main(float2 color_xy : COLOR0, float2 color_zw : COLOR1) : SV_TARGET`
			`{`
			`return float4(color_xy, color_zw);`
			`}`

			`[test]`
tests/shader_runner_metal: Run the Metal shader runner with DXIL shaders. 2025-07-14 22:22:04 +02:00			`todo(msl & sm>=6) draw quad`
vkd3d-shader/dxil: Shift register write masks by the component index in sm6_parser_emit_dx_store_output(). To account for the change we made in commit c571a45e656c4331adf092b546c2e68acba6b1cb on the SPIR-V side. 2024-10-09 15:21:00 +02:00			`probe(320, 240) rgba(0.25, 0.5, 0.75, 1.0)`
tests: Add a basic shader model 6 interface packing test as well. 2024-10-14 18:36:19 +02:00
tests: Add a test for shader interstage register packing. 2024-10-04 10:44:02 -05:00			`% Test handling of arrays in interface blocks`

			`[require]`
			`shader model >= 4.0`
			`shader model < 6.0`

tests: Add a basic shader model 6 interface packing test as well. 2024-10-14 18:36:19 +02:00			`[input layout]`

tests: Add a test for shader interstage register packing. 2024-10-04 10:44:02 -05:00			`[vertex shader]`
			`// Rules:`
			`// 1. Arrays always start on .x`
			`// 2. When placing a scalar or vector, search through the allocated slots for space vertically`
			`// (So check if you can place at o1.y, then o2.y, o3.y before o1.z, o2.z, etc.)`
tests: Add signature reflection test with structs. 2024-10-19 03:24:34 -03:00			`// 3. Elements with different interpolation cannot share a slot.`
			`// 4. The first field of a struct is always aligned.`
tests: Add a test for shader interstage register packing. 2024-10-04 10:44:02 -05:00			`struct data`
			`{`
			`float4 position : SV_Position; // Should be placed in o0`
			`float array1[2] : ARRAY1; // Should be placed in o1.x, o2.x`
			`float3 array3[1] : ARRAY3; // Should be placed in o3.xyz`
			`float array4[2] : ARRAY4; // Should be placed in o4.x, o5.x`
			`nointerpolation float ndata : NDATA; // Should be placed in o6.x`
			`uint udata : UDATA; // Should be placed in o6.y`
			`float4 data1 : DATA1; // Should be placed in o7.xyzw`
			`float3 data2 : DATA2; // Should be placed in o1.yzw`
			`float2 data3 : DATA3; // Should be placed in o2.yz`
			`float data4 : DATA4; // Should be placed in o4.y`
			`float2 data5 : DATA5; // Should be placed in o5.yz`
			`float2 data6 : DATA6; // Should be placed in o4.zw`
			`float data7 : DATA7; // Should be placed in o2.w`
			`float2 data8 : DATA8; // Should be placed in o8.xy`
			`float data9 : DATA9; // Should be placed in o8.z (not o3.w)`
			`float data10 : DATA10; // Should be placed in o3.w`
			`};`

			`void main(uint id : SV_VertexID, out data output)`
			`{`
			`output.position = float4(id & 1 ? 3 : -1, id & 2 ? -3 : 1, 0, 1);`
			`output.array1[0] = 1.0;`
			`output.array1[1] = 2.0;`
			`output.array3[0] = float3(3.0, 4.0, 5.0);`
			`output.array4[0] = 6.0;`
			`output.array4[1] = 7.0;`
			`output.data1 = float4(8.0, 9.0, 10.0, 11.0);`
			`output.data2 = float3(12.0, 13.0, 14.0);`
			`output.data3 = float2(15.0, 16.0);`
			`output.data4 = 17.0;`
			`output.data5 = float2(18.0, 19.0);`
			`output.data6 = float2(20.0, 21.0);`
			`output.data7 = 22.0;`
			`output.data8 = float2(23.0, 24.0);`
			`output.data9 = 25.0;`
			`output.data10 = 26.0;`
			`output.ndata = 27.0;`
			`output.udata = 28;`
			`}`

			`[pixel shader]`
			`struct data`
			`{`
			`float4 position : SV_Position; // v0.xyzw`
			`float array1 : ARRAY1; // v1.x`
			`float3 data2 : DATA2; // v1.yzw`
			`float array2 : ARRAY2; // v2.x`
			`float2 data3 : DATA3; // v2.yz`
			`float data7 : DATA7; // v2.w`
			`float3 array3 : ARRAY3; // v3.xyz`
			`float data10 : DATA10; // v3.w`
			`float array4 : ARRAY4; // v4.x`
			`float data4 : DATA4; // v4.y`
			`float2 data6 : DATA6; // v4.zw`
			`float array5 : ARRAY5; // v5.x`
			`float2 data5 : DATA5; // v5.yz`
			`nointerpolation float ndata : NDATA; // v6.x`
			`uint udata : UDATA; // v6.y`
			`float4 data1 : DATA1; // v7.xyzw`
			`float2 data8 : DATA8; // v8.xy`
			`float data9 : DATA9; // v8.z`
			`};`

			`float4 main(data input) : SV_Target`
			`{`
			`switch (int(input.position.x))`
			`{`
			`case 1: return float4(input.array1, input.data2);`
			`case 2: return float4(input.array2, input.data3, input.data7);`
			`case 3: return float4(input.array3, input.data10);`
			`case 4: return float4(input.array4, input.data4, input.data6);`
			`case 5: return float4(input.array5, input.data5, 0);`
			`case 6: return float4(input.ndata, input.udata, 0, 0);`
			`case 7: return input.data1;`
			`case 8: return float4(input.data8, input.data9, 0);`
			`default: return 0;`
			`}`
			`}`

			`[test]`
tests: Mark interface packing pipeline creation as todo on MoltenVK. Most Vulkan drivers are happy to compile a pipeline with interstage interface mismatches, even if the pipeline will be broken. Metal, and therefore MoltenVK, instead doesn't and errors out immediately. 2024-10-19 11:13:07 +02:00			`clear rtv 0 -1.0 -1.0 -1.0 -1.0`
vkd3d-shader/msl: Implement switches. 2025-05-23 16:15:49 +02:00			`draw triangle list 3`
tests: Remove some todo markings on MoltenVK in interface-packing.shader_test. I have to admit I'm not even sure of why most of those got marked as todo in the first place. Running again now tests on commit dff7c0e7b8f425887052384038f44cd9378f5c4b doesn't show all those failures. 2024-11-05 22:47:10 +01:00			`probe (0, 0) rgba ( 0.0, 0.0, 0.0, 0.0)`
			`probe (1, 0) rgba ( 1.0, 12.0, 13.0, 14.0)`
			`probe (2, 0) rgba ( 2.0, 15.0, 16.0, 22.0)`
			`probe (3, 0) rgba ( 3.0, 4.0, 5.0, 26.0)`
			`probe (4, 0) rgba ( 6.0, 17.0, 20.0, 21.0)`
			`probe (5, 0) rgba ( 7.0, 18.0, 19.0, 0.0)`
			`probe (6, 0) rgba (27.0, 28.0, 0.0, 0.0)`
			`probe (7, 0) rgba ( 8.0, 9.0, 10.0, 11.0)`
			`probe (8, 0) rgba (23.0, 24.0, 25.0, 0.0)`
tests: Test discontiguous signature masks with SM<4 shaders. 2024-10-14 22:33:32 +02:00
			`[require]`
			`shader model >= 3.0`

			`[input layout]`
			`0 r32g32-float POSITION`

			`[vb 0]`
			`-1.0 -1.0`
			`-1.0 3.0`
			`3.0 -1.0`

			`[vertex shader]`
			`void main(float2 in_pos : POSITION, out float4 pos : SV_Position, out float4 color : COLOR)`
			`{`
			`pos = float4(in_pos, 0.0f, 1.0f);`
			`color = float4(1.0f, 2.0f, 3.0f, 4.0f);`
			`}`

			`[pixel shader]`
			`% The point of this test is to check that signature masks are handled correctly`
			`% when they are not contiguous, so we attempt reading only component .xw from`
			% `color'. This happens when the shader is compiled by native, but not by us,
tests: Add a test about discontiguous input swizzles in bytecode format. 2025-06-06 11:56:14 +02:00			`% currently, so the same test appears in bytecode format just below.`
tests: Test discontiguous signature masks with SM<4 shaders. 2024-10-14 22:33:32 +02:00			`float4 main(float4 pos : SV_Position, float4 color : COLOR) : SV_Target`
			`{`
			`return float4(color.x, 10.0f, 11.0f, color.w);`
			`}`

			`[test]`
vkd3d-shader/msl: Handle SV_POSITION inputs. 2025-05-19 00:19:02 +02:00			`draw triangle list 3`
tests/shader_runner: Build a varying map in the Vulkan runner. This adds todos to two tests. The tests in question have mismatching masks and previously failed Vulkan validation anyway. 2023-10-27 11:59:09 -05:00			`probe (0, 0) rgba(1.0, 10.0, 11.0, 4.0)`
tests: Add a test about discontiguous input swizzles in bytecode format. 2025-06-06 11:56:14 +02:00
			`[require]`
			`shader model >= 4.0`
			`shader model < 4.1`

			`[pixel shader dxbc-tpf-hex]`
			`% The same as above, but in bytecode format.`
tests: Strip reflection data from dxbc-tpf-hex shaders. 2025-07-31 18:40:15 +02:00			`43425844 f1557687 26b262bd 9eb2bc5d 66f940c8 00000001 00000114 % DXBC header`
			`00000003 0000002c 00000080 000000b4 %`
			`4e475349 0000004c 00000002 00000008 % .input`
			`00000038 00000000 00000001 00000003 00000000 0000000f % .param SV_Position.xyzw, v0, float, POS`
			`00000044 00000000 00000000 00000003 00000001 0000090f % .param COLOR.xyzw, v1.xw, float`
			`505f5653 7469736f 006e6f69 4f4c4f43 abab0052 %`
			`4e47534f 0000002c 00000001 00000008 % .output`
			`00000020 00000000 00000000 00000003 00000000 0000000f % .param SV_Target.xyzw, o0.xyzw, float, TARGET`
			`545f5653 65677261 abab0074 %`
			`52444853 00000058 00000040 00000016 % .text ps_4_0`
			`03001062 00101092 00000001 % dcl_input_ps linear v1.xw`
			`03000065 001020f2 00000000 % dcl_output o0.xyzw`
			`05000036 00102092 00000000 00101c06 00000001 % mov o0.xw, v1.xxxw`
			`08000036 00102062 00000000 00004002 00000000 41200000 41300000 00000000 % mov o0.yz, l(0, 10.0, 11.0, 0)`
			`0100003e % ret`
tests: Add a test about discontiguous input swizzles in bytecode format. 2025-06-06 11:56:14 +02:00
			`[test]`
			`draw triangle list 3`
			`probe (0, 0) rgba(1.0, 10.0, 11.0, 4.0)`