diff options
author | Clément Foucault <foucault.clem@gmail.com> | 2022-10-21 14:09:07 +0300 |
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committer | Clément Foucault <foucault.clem@gmail.com> | 2022-10-24 12:21:17 +0300 |
commit | 0ee9282b5c51066dfcf5a6c7a5ebcd3dd5290673 (patch) | |
tree | 4e02590a5b3148e626e9187e8ba88313d581789c /source/blender/draw/intern/shaders | |
parent | b27c831e0cdcbd5e9792a8311e53ca31654a1d9f (diff) |
GPencil: Use indexed rendering instead of instances
This allows using instancing in other ways, like resources indexing.
Diffstat (limited to 'source/blender/draw/intern/shaders')
-rw-r--r-- | source/blender/draw/intern/shaders/common_gpencil_lib.glsl | 88 | ||||
-rw-r--r-- | source/blender/draw/intern/shaders/draw_view_info.hh | 17 |
2 files changed, 35 insertions, 70 deletions
diff --git a/source/blender/draw/intern/shaders/common_gpencil_lib.glsl b/source/blender/draw/intern/shaders/common_gpencil_lib.glsl index 123c493b572..def841b07aa 100644 --- a/source/blender/draw/intern/shaders/common_gpencil_lib.glsl +++ b/source/blender/draw/intern/shaders/common_gpencil_lib.glsl @@ -90,10 +90,15 @@ float gpencil_clamp_small_stroke_thickness(float thickness, vec4 ndc_pos) #ifdef GPU_VERTEX_SHADER -/* Trick to detect if a drawcall is stroke or fill. - * This does mean that we need to draw an empty stroke segment before starting - * to draw the real stroke segments. */ -# define GPENCIL_IS_STROKE_VERTEX (gl_InstanceID != 0) +int gpencil_stroke_point_id() +{ + return (gl_VertexID & ~GP_IS_STROKE_VERTEX_BIT) >> GP_VERTEX_ID_SHIFT; +} + +bool gpencil_is_stroke_vertex() +{ + return flag_test(gl_VertexID, GP_IS_STROKE_VERTEX_BIT); +} /** * Returns value of gl_Position. @@ -120,20 +125,7 @@ float gpencil_clamp_small_stroke_thickness(float thickness, vec4 ndc_pos) * WARNING: Max attribute count is actually 14 because OSX OpenGL implementation * considers gl_VertexID and gl_InstanceID as vertex attribute. (see T74536) */ -vec4 gpencil_vertex(ivec4 ma, - ivec4 ma1, - ivec4 ma2, - ivec4 ma3, - vec4 pos, - vec4 pos1, - vec4 pos2, - vec4 pos3, - vec4 uv1, - vec4 uv2, - vec4 col1, - vec4 col2, - vec4 fcol1, - vec4 viewport_size, +vec4 gpencil_vertex(vec4 viewport_size, gpMaterialFlag material_flags, vec2 alignment_rot, /* World Position. */ @@ -155,6 +147,24 @@ vec4 gpencil_vertex(ivec4 ma, /* Stroke hardness. */ out float out_hardness) { + int stroke_point_id = (gl_VertexID & ~GP_IS_STROKE_VERTEX_BIT) >> GP_VERTEX_ID_SHIFT; + + /* Attribute Loading. */ + vec4 pos = texelFetch(gp_pos_tx, (stroke_point_id - 1) * 3 + 0); + vec4 pos1 = texelFetch(gp_pos_tx, (stroke_point_id + 0) * 3 + 0); + vec4 pos2 = texelFetch(gp_pos_tx, (stroke_point_id + 1) * 3 + 0); + vec4 pos3 = texelFetch(gp_pos_tx, (stroke_point_id + 2) * 3 + 0); + ivec4 ma = floatBitsToInt(texelFetch(gp_pos_tx, (stroke_point_id - 1) * 3 + 1)); + ivec4 ma1 = floatBitsToInt(texelFetch(gp_pos_tx, (stroke_point_id + 0) * 3 + 1)); + ivec4 ma2 = floatBitsToInt(texelFetch(gp_pos_tx, (stroke_point_id + 1) * 3 + 1)); + ivec4 ma3 = floatBitsToInt(texelFetch(gp_pos_tx, (stroke_point_id + 2) * 3 + 1)); + vec4 uv1 = texelFetch(gp_pos_tx, (stroke_point_id + 0) * 3 + 2); + vec4 uv2 = texelFetch(gp_pos_tx, (stroke_point_id + 1) * 3 + 2); + + vec4 col1 = texelFetch(gp_col_tx, (stroke_point_id + 0) * 2 + 0); + vec4 col2 = texelFetch(gp_col_tx, (stroke_point_id + 1) * 2 + 0); + vec4 fcol1 = texelFetch(gp_col_tx, (stroke_point_id + 0) * 2 + 1); + # define thickness1 pos1.w # define thickness2 pos2.w # define strength1 uv1.w @@ -167,7 +177,7 @@ vec4 gpencil_vertex(ivec4 ma, vec4 out_ndc; - if (GPENCIL_IS_STROKE_VERTEX) { + if (gpencil_is_stroke_vertex()) { bool is_dot = flag_test(material_flags, GP_STROKE_ALIGNMENT); bool is_squares = !flag_test(material_flags, GP_STROKE_DOTS); @@ -177,13 +187,6 @@ vec4 gpencil_vertex(ivec4 ma, is_squares = false; } - /* Endpoints, we discard the vertices. */ - if (ma1.x == -1 || (!is_dot && ma2.x == -1)) { - /* We set the vertex at the camera origin to generate 0 fragments. */ - out_ndc = vec4(0.0, 0.0, -3e36, 0.0); - return out_ndc; - } - /* Avoid using a vertex attribute for quad positioning. */ float x = float(gl_VertexID & 1) * 2.0 - 1.0; /* [-1..1] */ float y = float(gl_VertexID & 2) - 1.0; /* [-1..1] */ @@ -336,8 +339,7 @@ vec4 gpencil_vertex(ivec4 ma, out_N = safe_normalize(N); /* Decode fill opacity. */ - out_color = vec4(fcol1.rgb, floor(fcol1.a / 10.0)); - out_color.a /= 10000.0; + out_color = vec4(fcol1.rgb, floor(fcol1.a / 10.0) / 10000.0); /* We still offset the fills a little to avoid overlaps */ out_ndc.z += 0.000002; @@ -355,20 +357,7 @@ vec4 gpencil_vertex(ivec4 ma, return out_ndc; } -vec4 gpencil_vertex(ivec4 ma, - ivec4 ma1, - ivec4 ma2, - ivec4 ma3, - vec4 pos, - vec4 pos1, - vec4 pos2, - vec4 pos3, - vec4 uv1, - vec4 uv2, - vec4 col1, - vec4 col2, - vec4 fcol1, - vec4 viewport_size, +vec4 gpencil_vertex(vec4 viewport_size, out vec3 out_P, out vec3 out_N, out vec4 out_color, @@ -379,20 +368,7 @@ vec4 gpencil_vertex(ivec4 ma, out vec2 out_thickness, out float out_hardness) { - return gpencil_vertex(ma, - ma1, - ma2, - ma3, - pos, - pos1, - pos2, - pos3, - uv1, - uv2, - col1, - col2, - fcol1, - viewport_size, + return gpencil_vertex(viewport_size, 0u, vec2(1.0, 0.0), out_P, diff --git a/source/blender/draw/intern/shaders/draw_view_info.hh b/source/blender/draw/intern/shaders/draw_view_info.hh index 7b500f66a68..114dbab799f 100644 --- a/source/blender/draw/intern/shaders/draw_view_info.hh +++ b/source/blender/draw/intern/shaders/draw_view_info.hh @@ -122,26 +122,15 @@ GPU_SHADER_CREATE_INFO(draw_volume).additional_info("draw_modelmat", "draw_resou GPU_SHADER_CREATE_INFO(draw_gpencil) .typedef_source("gpencil_shader_shared.h") .define("DRW_GPENCIL_INFO") - .vertex_in(0, Type::IVEC4, "ma") - .vertex_in(1, Type::IVEC4, "ma1") - .vertex_in(2, Type::IVEC4, "ma2") - .vertex_in(3, Type::IVEC4, "ma3") - .vertex_in(4, Type::VEC4, "pos") - .vertex_in(5, Type::VEC4, "pos1") - .vertex_in(6, Type::VEC4, "pos2") - .vertex_in(7, Type::VEC4, "pos3") - .vertex_in(8, Type::VEC4, "uv1") - .vertex_in(9, Type::VEC4, "uv2") - .vertex_in(10, Type::VEC4, "col1") - .vertex_in(11, Type::VEC4, "col2") - .vertex_in(12, Type::VEC4, "fcol1") + .sampler(0, ImageType::FLOAT_BUFFER, "gp_pos_tx") + .sampler(1, ImageType::FLOAT_BUFFER, "gp_col_tx") /* Per Object */ .push_constant(Type::FLOAT, "gpThicknessScale") /* TODO(fclem): Replace with object info. */ .push_constant(Type::FLOAT, "gpThicknessWorldScale") /* TODO(fclem): Same as above. */ .define("gpThicknessIsScreenSpace", "(gpThicknessWorldScale < 0.0)") /* Per Layer */ .push_constant(Type::FLOAT, "gpThicknessOffset") - .additional_info("draw_modelmat", "draw_resource_id_uniform", "draw_object_infos"); + .additional_info("draw_modelmat", "draw_object_infos"); /** \} */ |