/* Generated code, see packets.xml and gen_packet_header.py */ /* Packets, enums and structures for V3D 2.1. * * This file has been generated, do not hand edit. */ #ifndef V3D21_PACK_H #define V3D21_PACK_H #include "v3d_packet_helpers.h" enum V3D21_Compare_Function { V3D_COMPARE_FUNC_NEVER = 0, V3D_COMPARE_FUNC_LESS = 1, V3D_COMPARE_FUNC_EQUAL = 2, V3D_COMPARE_FUNC_LEQUAL = 3, V3D_COMPARE_FUNC_GREATER = 4, V3D_COMPARE_FUNC_NOTEQUAL = 5, V3D_COMPARE_FUNC_GEQUAL = 6, V3D_COMPARE_FUNC_ALWAYS = 7, }; enum V3D21_Primitive { V3D_PRIM_POINTS = 0, V3D_PRIM_LINES = 1, V3D_PRIM_LINE_LOOP = 2, V3D_PRIM_LINE_STRIP = 3, V3D_PRIM_TRIANGLES = 4, V3D_PRIM_TRIANGLE_STRIP = 5, V3D_PRIM_TRIANGLE_FAN = 6, }; #define V3D21_HALT_opcode 0 #define V3D21_HALT_header \ .opcode = 0 struct V3D21_HALT { uint32_t opcode; }; static inline void V3D21_HALT_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_HALT * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_HALT_length 1 #ifdef __gen_unpack_address static inline void V3D21_HALT_unpack(const uint8_t * restrict cl, struct V3D21_HALT * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_NOP_opcode 1 #define V3D21_NOP_header \ .opcode = 1 struct V3D21_NOP { uint32_t opcode; }; static inline void V3D21_NOP_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_NOP * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_NOP_length 1 #ifdef __gen_unpack_address static inline void V3D21_NOP_unpack(const uint8_t * restrict cl, struct V3D21_NOP * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_FLUSH_opcode 4 #define V3D21_FLUSH_header \ .opcode = 4 struct V3D21_FLUSH { uint32_t opcode; }; static inline void V3D21_FLUSH_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_FLUSH * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_FLUSH_length 1 #ifdef __gen_unpack_address static inline void V3D21_FLUSH_unpack(const uint8_t * restrict cl, struct V3D21_FLUSH * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_FLUSH_ALL_STATE_opcode 5 #define V3D21_FLUSH_ALL_STATE_header \ .opcode = 5 struct V3D21_FLUSH_ALL_STATE { uint32_t opcode; }; static inline void V3D21_FLUSH_ALL_STATE_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_FLUSH_ALL_STATE * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_FLUSH_ALL_STATE_length 1 #ifdef __gen_unpack_address static inline void V3D21_FLUSH_ALL_STATE_unpack(const uint8_t * restrict cl, struct V3D21_FLUSH_ALL_STATE * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_START_TILE_BINNING_opcode 6 #define V3D21_START_TILE_BINNING_header \ .opcode = 6 struct V3D21_START_TILE_BINNING { uint32_t opcode; }; static inline void V3D21_START_TILE_BINNING_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_START_TILE_BINNING * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_START_TILE_BINNING_length 1 #ifdef __gen_unpack_address static inline void V3D21_START_TILE_BINNING_unpack(const uint8_t * restrict cl, struct V3D21_START_TILE_BINNING * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_INCREMENT_SEMAPHORE_opcode 7 #define V3D21_INCREMENT_SEMAPHORE_header \ .opcode = 7 struct V3D21_INCREMENT_SEMAPHORE { uint32_t opcode; }; static inline void V3D21_INCREMENT_SEMAPHORE_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_INCREMENT_SEMAPHORE * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_INCREMENT_SEMAPHORE_length 1 #ifdef __gen_unpack_address static inline void V3D21_INCREMENT_SEMAPHORE_unpack(const uint8_t * restrict cl, struct V3D21_INCREMENT_SEMAPHORE * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_WAIT_ON_SEMAPHORE_opcode 8 #define V3D21_WAIT_ON_SEMAPHORE_header \ .opcode = 8 struct V3D21_WAIT_ON_SEMAPHORE { uint32_t opcode; }; static inline void V3D21_WAIT_ON_SEMAPHORE_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_WAIT_ON_SEMAPHORE * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_WAIT_ON_SEMAPHORE_length 1 #ifdef __gen_unpack_address static inline void V3D21_WAIT_ON_SEMAPHORE_unpack(const uint8_t * restrict cl, struct V3D21_WAIT_ON_SEMAPHORE * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_BRANCH_opcode 16 #define V3D21_BRANCH_header \ .opcode = 16 struct V3D21_BRANCH { uint32_t opcode; __gen_address_type address; }; static inline void V3D21_BRANCH_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_BRANCH * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); __gen_emit_reloc(data, &values->address); cl[ 1] = __gen_address_offset(&values->address); cl[ 2] = __gen_address_offset(&values->address) >> 8; cl[ 3] = __gen_address_offset(&values->address) >> 16; cl[ 4] = __gen_address_offset(&values->address) >> 24; } #define V3D21_BRANCH_length 5 #ifdef __gen_unpack_address static inline void V3D21_BRANCH_unpack(const uint8_t * restrict cl, struct V3D21_BRANCH * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->address = __gen_unpack_address(cl, 8, 39); } #endif #define V3D21_BRANCH_TO_SUB_LIST_opcode 17 #define V3D21_BRANCH_TO_SUB_LIST_header \ .opcode = 17 struct V3D21_BRANCH_TO_SUB_LIST { uint32_t opcode; __gen_address_type address; }; static inline void V3D21_BRANCH_TO_SUB_LIST_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_BRANCH_TO_SUB_LIST * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); __gen_emit_reloc(data, &values->address); cl[ 1] = __gen_address_offset(&values->address); cl[ 2] = __gen_address_offset(&values->address) >> 8; cl[ 3] = __gen_address_offset(&values->address) >> 16; cl[ 4] = __gen_address_offset(&values->address) >> 24; } #define V3D21_BRANCH_TO_SUB_LIST_length 5 #ifdef __gen_unpack_address static inline void V3D21_BRANCH_TO_SUB_LIST_unpack(const uint8_t * restrict cl, struct V3D21_BRANCH_TO_SUB_LIST * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->address = __gen_unpack_address(cl, 8, 39); } #endif #define V3D21_RETURN_FROM_SUB_LIST_opcode 18 #define V3D21_RETURN_FROM_SUB_LIST_header \ .opcode = 18 struct V3D21_RETURN_FROM_SUB_LIST { uint32_t opcode; }; static inline void V3D21_RETURN_FROM_SUB_LIST_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_RETURN_FROM_SUB_LIST * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_RETURN_FROM_SUB_LIST_length 1 #ifdef __gen_unpack_address static inline void V3D21_RETURN_FROM_SUB_LIST_unpack(const uint8_t * restrict cl, struct V3D21_RETURN_FROM_SUB_LIST * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_opcode 24 #define V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_header\ .opcode = 24 struct V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER { uint32_t opcode; }; static inline void V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_length 1 #ifdef __gen_unpack_address static inline void V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_unpack(const uint8_t * restrict cl, struct V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_AND_EOF_opcode 25 #define V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_AND_EOF_header\ .opcode = 25 struct V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_AND_EOF { uint32_t opcode; }; static inline void V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_AND_EOF_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_AND_EOF * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); } #define V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_AND_EOF_length 1 #ifdef __gen_unpack_address static inline void V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_AND_EOF_unpack(const uint8_t * restrict cl, struct V3D21_STORE_MULTI_SAMPLE_RESOLVED_TILE_COLOR_BUFFER_AND_EOF * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); } #endif #define V3D21_STORE_FULL_RESOLUTION_TILE_BUFFER_opcode 26 #define V3D21_STORE_FULL_RESOLUTION_TILE_BUFFER_header\ .opcode = 26 struct V3D21_STORE_FULL_RESOLUTION_TILE_BUFFER { uint32_t opcode; __gen_address_type address; bool last_tile; bool disable_clear_on_write; bool disable_z_stencil_buffer_write; bool disable_color_buffer_write; }; static inline void V3D21_STORE_FULL_RESOLUTION_TILE_BUFFER_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_STORE_FULL_RESOLUTION_TILE_BUFFER * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); __gen_emit_reloc(data, &values->address); cl[ 1] = __gen_address_offset(&values->address) | __gen_uint(values->last_tile, 3, 3) | __gen_uint(values->disable_clear_on_write, 2, 2) | __gen_uint(values->disable_z_stencil_buffer_write, 1, 1) | __gen_uint(values->disable_color_buffer_write, 0, 0); cl[ 2] = __gen_address_offset(&values->address) >> 8; cl[ 3] = __gen_address_offset(&values->address) >> 16; cl[ 4] = __gen_address_offset(&values->address) >> 24; } #define V3D21_STORE_FULL_RESOLUTION_TILE_BUFFER_length 5 #ifdef __gen_unpack_address static inline void V3D21_STORE_FULL_RESOLUTION_TILE_BUFFER_unpack(const uint8_t * restrict cl, struct V3D21_STORE_FULL_RESOLUTION_TILE_BUFFER * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->address = __gen_unpack_address(cl, 12, 39); values->last_tile = __gen_unpack_uint(cl, 11, 11); values->disable_clear_on_write = __gen_unpack_uint(cl, 10, 10); values->disable_z_stencil_buffer_write = __gen_unpack_uint(cl, 9, 9); values->disable_color_buffer_write = __gen_unpack_uint(cl, 8, 8); } #endif #define V3D21_RE_LOAD_FULL_RESOLUTION_TILE_BUFFER_opcode 27 #define V3D21_RE_LOAD_FULL_RESOLUTION_TILE_BUFFER_header\ .opcode = 27 struct V3D21_RE_LOAD_FULL_RESOLUTION_TILE_BUFFER { uint32_t opcode; __gen_address_type address; bool disable_z_stencil_buffer_read; bool disable_color_buffer_read; }; static inline void V3D21_RE_LOAD_FULL_RESOLUTION_TILE_BUFFER_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_RE_LOAD_FULL_RESOLUTION_TILE_BUFFER * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); __gen_emit_reloc(data, &values->address); cl[ 1] = __gen_address_offset(&values->address) | __gen_uint(values->disable_z_stencil_buffer_read, 1, 1) | __gen_uint(values->disable_color_buffer_read, 0, 0); cl[ 2] = __gen_address_offset(&values->address) >> 8; cl[ 3] = __gen_address_offset(&values->address) >> 16; cl[ 4] = __gen_address_offset(&values->address) >> 24; } #define V3D21_RE_LOAD_FULL_RESOLUTION_TILE_BUFFER_length 5 #ifdef __gen_unpack_address static inline void V3D21_RE_LOAD_FULL_RESOLUTION_TILE_BUFFER_unpack(const uint8_t * restrict cl, struct V3D21_RE_LOAD_FULL_RESOLUTION_TILE_BUFFER * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->address = __gen_unpack_address(cl, 12, 39); values->disable_z_stencil_buffer_read = __gen_unpack_uint(cl, 9, 9); values->disable_color_buffer_read = __gen_unpack_uint(cl, 8, 8); } #endif #define V3D21_STORE_TILE_BUFFER_GENERAL_opcode 28 #define V3D21_STORE_TILE_BUFFER_GENERAL_header \ .opcode = 28 struct V3D21_STORE_TILE_BUFFER_GENERAL { uint32_t opcode; __gen_address_type memory_base_address_of_frame_tile_dump_buffer; bool last_tile_of_frame; bool disable_vg_mask_buffer_dump; bool disable_z_stencil_buffer_dump; bool disable_color_buffer_dump; bool disable_vg_mask_buffer_clear_on_store_dump; bool disable_z_stencil_buffer_clear_on_store_dump; bool disable_color_buffer_clear_on_store_dump; uint32_t pixel_color_format; #define RGBA8888 0 #define BGR565_DITHERED 1 #define BGR565_NO_DITHER 2 uint32_t mode; #define SAMPLE_0 0 #define DECIMATE_X4 1 #define DECIMATE_X16 2 uint32_t format; #define RASTER 0 #define T 1 #define LT 2 uint32_t buffer_to_store; #define NONE 0 #define COLOR 1 #define Z_STENCIL 2 #define Z 3 #define VG_MASK 4 }; static inline void V3D21_STORE_TILE_BUFFER_GENERAL_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_STORE_TILE_BUFFER_GENERAL * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->mode, 6, 7) | __gen_uint(values->format, 4, 5) | __gen_uint(values->buffer_to_store, 0, 2); cl[ 2] = __gen_uint(values->disable_vg_mask_buffer_clear_on_store_dump, 7, 7) | __gen_uint(values->disable_z_stencil_buffer_clear_on_store_dump, 6, 6) | __gen_uint(values->disable_color_buffer_clear_on_store_dump, 5, 5) | __gen_uint(values->pixel_color_format, 0, 1); __gen_emit_reloc(data, &values->memory_base_address_of_frame_tile_dump_buffer); cl[ 3] = __gen_address_offset(&values->memory_base_address_of_frame_tile_dump_buffer) | __gen_uint(values->last_tile_of_frame, 3, 3) | __gen_uint(values->disable_vg_mask_buffer_dump, 2, 2) | __gen_uint(values->disable_z_stencil_buffer_dump, 1, 1) | __gen_uint(values->disable_color_buffer_dump, 0, 0); cl[ 4] = __gen_address_offset(&values->memory_base_address_of_frame_tile_dump_buffer) >> 8; cl[ 5] = __gen_address_offset(&values->memory_base_address_of_frame_tile_dump_buffer) >> 16; cl[ 6] = __gen_address_offset(&values->memory_base_address_of_frame_tile_dump_buffer) >> 24; } #define V3D21_STORE_TILE_BUFFER_GENERAL_length 7 #ifdef __gen_unpack_address static inline void V3D21_STORE_TILE_BUFFER_GENERAL_unpack(const uint8_t * restrict cl, struct V3D21_STORE_TILE_BUFFER_GENERAL * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->memory_base_address_of_frame_tile_dump_buffer = __gen_unpack_address(cl, 28, 55); values->last_tile_of_frame = __gen_unpack_uint(cl, 27, 27); values->disable_vg_mask_buffer_dump = __gen_unpack_uint(cl, 26, 26); values->disable_z_stencil_buffer_dump = __gen_unpack_uint(cl, 25, 25); values->disable_color_buffer_dump = __gen_unpack_uint(cl, 24, 24); values->disable_vg_mask_buffer_clear_on_store_dump = __gen_unpack_uint(cl, 23, 23); values->disable_z_stencil_buffer_clear_on_store_dump = __gen_unpack_uint(cl, 22, 22); values->disable_color_buffer_clear_on_store_dump = __gen_unpack_uint(cl, 21, 21); values->pixel_color_format = __gen_unpack_uint(cl, 16, 17); values->mode = __gen_unpack_uint(cl, 14, 15); values->format = __gen_unpack_uint(cl, 12, 13); values->buffer_to_store = __gen_unpack_uint(cl, 8, 10); } #endif #define V3D21_LOAD_TILE_BUFFER_GENERAL_opcode 29 #define V3D21_LOAD_TILE_BUFFER_GENERAL_header \ .opcode = 29 struct V3D21_LOAD_TILE_BUFFER_GENERAL { uint32_t opcode; __gen_address_type memory_base_address_of_frame_tile_dump_buffer; bool disable_vg_mask_buffer_load; bool disable_z_stencil_buffer_load; bool disable_color_buffer_load; uint32_t pixel_color_format; #define RGBA8888 0 #define BGR565_DITHERED 1 #define BGR565_NO_DITHER 2 uint32_t mode; #define SAMPLE_0 0 #define DECIMATE_X4 1 #define DECIMATE_X16 2 uint32_t format; #define RASTER 0 #define T 1 #define LT 2 uint32_t buffer_to_store; #define NONE 0 #define COLOR 1 #define Z_STENCIL 2 #define Z 3 #define VG_MASK 4 }; static inline void V3D21_LOAD_TILE_BUFFER_GENERAL_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_LOAD_TILE_BUFFER_GENERAL * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->mode, 6, 7) | __gen_uint(values->format, 4, 5) | __gen_uint(values->buffer_to_store, 0, 2); cl[ 2] = __gen_uint(values->pixel_color_format, 0, 1); __gen_emit_reloc(data, &values->memory_base_address_of_frame_tile_dump_buffer); cl[ 3] = __gen_address_offset(&values->memory_base_address_of_frame_tile_dump_buffer) | __gen_uint(values->disable_vg_mask_buffer_load, 2, 2) | __gen_uint(values->disable_z_stencil_buffer_load, 1, 1) | __gen_uint(values->disable_color_buffer_load, 0, 0); cl[ 4] = __gen_address_offset(&values->memory_base_address_of_frame_tile_dump_buffer) >> 8; cl[ 5] = __gen_address_offset(&values->memory_base_address_of_frame_tile_dump_buffer) >> 16; cl[ 6] = __gen_address_offset(&values->memory_base_address_of_frame_tile_dump_buffer) >> 24; } #define V3D21_LOAD_TILE_BUFFER_GENERAL_length 7 #ifdef __gen_unpack_address static inline void V3D21_LOAD_TILE_BUFFER_GENERAL_unpack(const uint8_t * restrict cl, struct V3D21_LOAD_TILE_BUFFER_GENERAL * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->memory_base_address_of_frame_tile_dump_buffer = __gen_unpack_address(cl, 28, 55); values->disable_vg_mask_buffer_load = __gen_unpack_uint(cl, 26, 26); values->disable_z_stencil_buffer_load = __gen_unpack_uint(cl, 25, 25); values->disable_color_buffer_load = __gen_unpack_uint(cl, 24, 24); values->pixel_color_format = __gen_unpack_uint(cl, 16, 17); values->mode = __gen_unpack_uint(cl, 14, 15); values->format = __gen_unpack_uint(cl, 12, 13); values->buffer_to_store = __gen_unpack_uint(cl, 8, 10); } #endif #define V3D21_INDEXED_PRIMITIVE_LIST_opcode 32 #define V3D21_INDEXED_PRIMITIVE_LIST_header \ .opcode = 32 struct V3D21_INDEXED_PRIMITIVE_LIST { uint32_t opcode; uint32_t maximum_index; uint32_t address_of_indices_list; uint32_t length; uint32_t index_type; #define _8_BIT 0 #define _16_BIT 1 enum V3D21_Primitive primitive_mode; }; static inline void V3D21_INDEXED_PRIMITIVE_LIST_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_INDEXED_PRIMITIVE_LIST * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->index_type, 4, 7) | __gen_uint(values->primitive_mode, 0, 3); memcpy(&cl[2], &values->length, sizeof(values->length)); memcpy(&cl[6], &values->address_of_indices_list, sizeof(values->address_of_indices_list)); memcpy(&cl[10], &values->maximum_index, sizeof(values->maximum_index)); } #define V3D21_INDEXED_PRIMITIVE_LIST_length 14 #ifdef __gen_unpack_address static inline void V3D21_INDEXED_PRIMITIVE_LIST_unpack(const uint8_t * restrict cl, struct V3D21_INDEXED_PRIMITIVE_LIST * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->maximum_index = __gen_unpack_uint(cl, 80, 111); values->address_of_indices_list = __gen_unpack_uint(cl, 48, 79); values->length = __gen_unpack_uint(cl, 16, 47); values->index_type = __gen_unpack_uint(cl, 12, 15); values->primitive_mode = __gen_unpack_uint(cl, 8, 11); } #endif #define V3D21_VERTEX_ARRAY_PRIMITIVES_opcode 33 #define V3D21_VERTEX_ARRAY_PRIMITIVES_header \ .opcode = 33 struct V3D21_VERTEX_ARRAY_PRIMITIVES { uint32_t opcode; uint32_t index_of_first_vertex; uint32_t length; enum V3D21_Primitive primitive_mode; }; static inline void V3D21_VERTEX_ARRAY_PRIMITIVES_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_VERTEX_ARRAY_PRIMITIVES * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->primitive_mode, 0, 3); memcpy(&cl[2], &values->length, sizeof(values->length)); memcpy(&cl[6], &values->index_of_first_vertex, sizeof(values->index_of_first_vertex)); } #define V3D21_VERTEX_ARRAY_PRIMITIVES_length 10 #ifdef __gen_unpack_address static inline void V3D21_VERTEX_ARRAY_PRIMITIVES_unpack(const uint8_t * restrict cl, struct V3D21_VERTEX_ARRAY_PRIMITIVES * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->index_of_first_vertex = __gen_unpack_uint(cl, 48, 79); values->length = __gen_unpack_uint(cl, 16, 47); values->primitive_mode = __gen_unpack_uint(cl, 8, 11); } #endif #define V3D21_PRIMITIVE_LIST_FORMAT_opcode 56 #define V3D21_PRIMITIVE_LIST_FORMAT_header \ .opcode = 56 struct V3D21_PRIMITIVE_LIST_FORMAT { uint32_t opcode; uint32_t data_type; #define _16_BIT_INDEX 1 #define _32_BIT_X_Y 3 uint32_t primitive_type; #define POINTS_LIST 0 #define LINES_LIST 1 #define TRIANGLES_LIST 2 #define RHY_LIST 3 }; static inline void V3D21_PRIMITIVE_LIST_FORMAT_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_PRIMITIVE_LIST_FORMAT * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->data_type, 4, 7) | __gen_uint(values->primitive_type, 0, 3); } #define V3D21_PRIMITIVE_LIST_FORMAT_length 2 #ifdef __gen_unpack_address static inline void V3D21_PRIMITIVE_LIST_FORMAT_unpack(const uint8_t * restrict cl, struct V3D21_PRIMITIVE_LIST_FORMAT * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->data_type = __gen_unpack_uint(cl, 12, 15); values->primitive_type = __gen_unpack_uint(cl, 8, 11); } #endif #define V3D21_GL_SHADER_STATE_opcode 64 #define V3D21_GL_SHADER_STATE_header \ .opcode = 64 struct V3D21_GL_SHADER_STATE { uint32_t opcode; uint32_t address; bool extended_shader_record; uint32_t number_of_attribute_arrays; }; static inline void V3D21_GL_SHADER_STATE_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_GL_SHADER_STATE * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->address, 0, 27) | __gen_uint(values->extended_shader_record, 3, 3) | __gen_uint(values->number_of_attribute_arrays, 0, 2); cl[ 2] = __gen_uint(values->address, 0, 27) >> 8; cl[ 3] = __gen_uint(values->address, 0, 27) >> 16; cl[ 4] = __gen_uint(values->address, 0, 27) >> 24; } #define V3D21_GL_SHADER_STATE_length 5 #ifdef __gen_unpack_address static inline void V3D21_GL_SHADER_STATE_unpack(const uint8_t * restrict cl, struct V3D21_GL_SHADER_STATE * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->address = __gen_unpack_uint(cl, 8, 35); values->extended_shader_record = __gen_unpack_uint(cl, 11, 11); values->number_of_attribute_arrays = __gen_unpack_uint(cl, 8, 10); } #endif #define V3D21_CLEAR_COLORS_opcode 114 #define V3D21_CLEAR_COLORS_header \ .opcode = 114 struct V3D21_CLEAR_COLORS { uint32_t opcode; uint32_t clear_stencil; uint32_t clear_vg_mask; uint32_t clear_zs; uint64_t clear_color; }; static inline void V3D21_CLEAR_COLORS_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_CLEAR_COLORS * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->clear_color, 0, 63); cl[ 2] = __gen_uint(values->clear_color, 0, 63) >> 8; cl[ 3] = __gen_uint(values->clear_color, 0, 63) >> 16; cl[ 4] = __gen_uint(values->clear_color, 0, 63) >> 24; cl[ 5] = __gen_uint(values->clear_color, 0, 63) >> 32; cl[ 6] = __gen_uint(values->clear_color, 0, 63) >> 40; cl[ 7] = __gen_uint(values->clear_color, 0, 63) >> 48; cl[ 8] = __gen_uint(values->clear_color, 0, 63) >> 56; cl[ 9] = __gen_uint(values->clear_zs, 0, 23); cl[10] = __gen_uint(values->clear_zs, 0, 23) >> 8; cl[11] = __gen_uint(values->clear_zs, 0, 23) >> 16; cl[12] = __gen_uint(values->clear_vg_mask, 0, 7); cl[13] = __gen_uint(values->clear_stencil, 0, 7); } #define V3D21_CLEAR_COLORS_length 14 #ifdef __gen_unpack_address static inline void V3D21_CLEAR_COLORS_unpack(const uint8_t * restrict cl, struct V3D21_CLEAR_COLORS * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->clear_stencil = __gen_unpack_uint(cl, 104, 111); values->clear_vg_mask = __gen_unpack_uint(cl, 96, 103); values->clear_zs = __gen_unpack_uint(cl, 72, 95); values->clear_color = __gen_unpack_uint(cl, 8, 71); } #endif #define V3D21_CONFIGURATION_BITS_opcode 96 #define V3D21_CONFIGURATION_BITS_header \ .opcode = 96 struct V3D21_CONFIGURATION_BITS { uint32_t opcode; bool early_z_updates_enable; bool early_z_enable; bool z_updates_enable; enum V3D21_Compare_Function depth_test_function; uint32_t coverage_read_mode; bool coverage_pipe_select; uint32_t rasteriser_oversample_mode; uint32_t coverage_read_type; bool antialiased_points_and_lines; bool enable_depth_offset; bool clockwise_primitives; bool enable_reverse_facing_primitive; bool enable_forward_facing_primitive; }; static inline void V3D21_CONFIGURATION_BITS_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_CONFIGURATION_BITS * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->rasteriser_oversample_mode, 6, 7) | __gen_uint(values->coverage_read_type, 5, 5) | __gen_uint(values->antialiased_points_and_lines, 4, 4) | __gen_uint(values->enable_depth_offset, 3, 3) | __gen_uint(values->clockwise_primitives, 2, 2) | __gen_uint(values->enable_reverse_facing_primitive, 1, 1) | __gen_uint(values->enable_forward_facing_primitive, 0, 0); cl[ 2] = __gen_uint(values->z_updates_enable, 7, 7) | __gen_uint(values->depth_test_function, 4, 6) | __gen_uint(values->coverage_read_mode, 3, 3) | __gen_uint(values->coverage_pipe_select, 0, 0); cl[ 3] = __gen_uint(values->early_z_updates_enable, 1, 1) | __gen_uint(values->early_z_enable, 0, 0); } #define V3D21_CONFIGURATION_BITS_length 4 #ifdef __gen_unpack_address static inline void V3D21_CONFIGURATION_BITS_unpack(const uint8_t * restrict cl, struct V3D21_CONFIGURATION_BITS * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->early_z_updates_enable = __gen_unpack_uint(cl, 25, 25); values->early_z_enable = __gen_unpack_uint(cl, 24, 24); values->z_updates_enable = __gen_unpack_uint(cl, 23, 23); values->depth_test_function = __gen_unpack_uint(cl, 20, 22); values->coverage_read_mode = __gen_unpack_uint(cl, 19, 19); values->coverage_pipe_select = __gen_unpack_uint(cl, 16, 16); values->rasteriser_oversample_mode = __gen_unpack_uint(cl, 14, 15); values->coverage_read_type = __gen_unpack_uint(cl, 13, 13); values->antialiased_points_and_lines = __gen_unpack_uint(cl, 12, 12); values->enable_depth_offset = __gen_unpack_uint(cl, 11, 11); values->clockwise_primitives = __gen_unpack_uint(cl, 10, 10); values->enable_reverse_facing_primitive = __gen_unpack_uint(cl, 9, 9); values->enable_forward_facing_primitive = __gen_unpack_uint(cl, 8, 8); } #endif #define V3D21_FLAT_SHADE_FLAGS_opcode 97 #define V3D21_FLAT_SHADE_FLAGS_header \ .opcode = 97 struct V3D21_FLAT_SHADE_FLAGS { uint32_t opcode; uint32_t flat_shading_flags; }; static inline void V3D21_FLAT_SHADE_FLAGS_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_FLAT_SHADE_FLAGS * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); memcpy(&cl[1], &values->flat_shading_flags, sizeof(values->flat_shading_flags)); } #define V3D21_FLAT_SHADE_FLAGS_length 5 #ifdef __gen_unpack_address static inline void V3D21_FLAT_SHADE_FLAGS_unpack(const uint8_t * restrict cl, struct V3D21_FLAT_SHADE_FLAGS * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->flat_shading_flags = __gen_unpack_uint(cl, 8, 39); } #endif #define V3D21_POINT_SIZE_opcode 98 #define V3D21_POINT_SIZE_header \ .opcode = 98 struct V3D21_POINT_SIZE { uint32_t opcode; float point_size; }; static inline void V3D21_POINT_SIZE_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_POINT_SIZE * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); memcpy(&cl[1], &values->point_size, sizeof(values->point_size)); } #define V3D21_POINT_SIZE_length 5 #ifdef __gen_unpack_address static inline void V3D21_POINT_SIZE_unpack(const uint8_t * restrict cl, struct V3D21_POINT_SIZE * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->point_size = __gen_unpack_float(cl, 8, 39); } #endif #define V3D21_LINE_WIDTH_opcode 99 #define V3D21_LINE_WIDTH_header \ .opcode = 99 struct V3D21_LINE_WIDTH { uint32_t opcode; float line_width; }; static inline void V3D21_LINE_WIDTH_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_LINE_WIDTH * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); memcpy(&cl[1], &values->line_width, sizeof(values->line_width)); } #define V3D21_LINE_WIDTH_length 5 #ifdef __gen_unpack_address static inline void V3D21_LINE_WIDTH_unpack(const uint8_t * restrict cl, struct V3D21_LINE_WIDTH * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->line_width = __gen_unpack_float(cl, 8, 39); } #endif #define V3D21_RHT_X_BOUNDARY_opcode 100 #define V3D21_RHT_X_BOUNDARY_header \ .opcode = 100 struct V3D21_RHT_X_BOUNDARY { uint32_t opcode; int32_t rht_primitive_x_boundary; }; static inline void V3D21_RHT_X_BOUNDARY_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_RHT_X_BOUNDARY * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_sint(values->rht_primitive_x_boundary, 0, 15); cl[ 2] = __gen_sint(values->rht_primitive_x_boundary, 0, 15) >> 8; } #define V3D21_RHT_X_BOUNDARY_length 3 #ifdef __gen_unpack_address static inline void V3D21_RHT_X_BOUNDARY_unpack(const uint8_t * restrict cl, struct V3D21_RHT_X_BOUNDARY * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->rht_primitive_x_boundary = __gen_unpack_sint(cl, 8, 23); } #endif #define V3D21_DEPTH_OFFSET_opcode 101 #define V3D21_DEPTH_OFFSET_header \ .opcode = 101 struct V3D21_DEPTH_OFFSET { uint32_t opcode; uint32_t depth_offset_units; uint32_t depth_offset_factor; }; static inline void V3D21_DEPTH_OFFSET_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_DEPTH_OFFSET * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->depth_offset_factor, 0, 15); cl[ 2] = __gen_uint(values->depth_offset_factor, 0, 15) >> 8; cl[ 3] = __gen_uint(values->depth_offset_units, 0, 15); cl[ 4] = __gen_uint(values->depth_offset_units, 0, 15) >> 8; } #define V3D21_DEPTH_OFFSET_length 5 #ifdef __gen_unpack_address static inline void V3D21_DEPTH_OFFSET_unpack(const uint8_t * restrict cl, struct V3D21_DEPTH_OFFSET * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->depth_offset_units = __gen_unpack_uint(cl, 24, 39); values->depth_offset_factor = __gen_unpack_uint(cl, 8, 23); } #endif #define V3D21_CLIP_WINDOW_opcode 102 #define V3D21_CLIP_WINDOW_header \ .opcode = 102 struct V3D21_CLIP_WINDOW { uint32_t opcode; uint32_t clip_window_height_in_pixels; uint32_t clip_window_width_in_pixels; uint32_t clip_window_bottom_pixel_coordinate; uint32_t clip_window_left_pixel_coordinate; }; static inline void V3D21_CLIP_WINDOW_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_CLIP_WINDOW * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->clip_window_left_pixel_coordinate, 0, 15); cl[ 2] = __gen_uint(values->clip_window_left_pixel_coordinate, 0, 15) >> 8; cl[ 3] = __gen_uint(values->clip_window_bottom_pixel_coordinate, 0, 15); cl[ 4] = __gen_uint(values->clip_window_bottom_pixel_coordinate, 0, 15) >> 8; cl[ 5] = __gen_uint(values->clip_window_width_in_pixels, 0, 15); cl[ 6] = __gen_uint(values->clip_window_width_in_pixels, 0, 15) >> 8; cl[ 7] = __gen_uint(values->clip_window_height_in_pixels, 0, 15); cl[ 8] = __gen_uint(values->clip_window_height_in_pixels, 0, 15) >> 8; } #define V3D21_CLIP_WINDOW_length 9 #ifdef __gen_unpack_address static inline void V3D21_CLIP_WINDOW_unpack(const uint8_t * restrict cl, struct V3D21_CLIP_WINDOW * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->clip_window_height_in_pixels = __gen_unpack_uint(cl, 56, 71); values->clip_window_width_in_pixels = __gen_unpack_uint(cl, 40, 55); values->clip_window_bottom_pixel_coordinate = __gen_unpack_uint(cl, 24, 39); values->clip_window_left_pixel_coordinate = __gen_unpack_uint(cl, 8, 23); } #endif #define V3D21_VIEWPORT_OFFSET_opcode 103 #define V3D21_VIEWPORT_OFFSET_header \ .opcode = 103 struct V3D21_VIEWPORT_OFFSET { uint32_t opcode; float viewport_centre_y_coordinate; float viewport_centre_x_coordinate; }; static inline void V3D21_VIEWPORT_OFFSET_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_VIEWPORT_OFFSET * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_sfixed(values->viewport_centre_x_coordinate, 0, 15, 4); cl[ 2] = __gen_sfixed(values->viewport_centre_x_coordinate, 0, 15, 4) >> 8; cl[ 3] = __gen_sfixed(values->viewport_centre_y_coordinate, 0, 15, 4); cl[ 4] = __gen_sfixed(values->viewport_centre_y_coordinate, 0, 15, 4) >> 8; } #define V3D21_VIEWPORT_OFFSET_length 5 #ifdef __gen_unpack_address static inline void V3D21_VIEWPORT_OFFSET_unpack(const uint8_t * restrict cl, struct V3D21_VIEWPORT_OFFSET * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->viewport_centre_y_coordinate = __gen_unpack_sfixed(cl, 24, 39, 4); values->viewport_centre_x_coordinate = __gen_unpack_sfixed(cl, 8, 23, 4); } #endif #define V3D21_Z_MIN_AND_MAX_CLIPPING_PLANES_opcode 104 #define V3D21_Z_MIN_AND_MAX_CLIPPING_PLANES_header\ .opcode = 104 struct V3D21_Z_MIN_AND_MAX_CLIPPING_PLANES { uint32_t opcode; float maximum_zw; float minimum_zw; }; static inline void V3D21_Z_MIN_AND_MAX_CLIPPING_PLANES_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_Z_MIN_AND_MAX_CLIPPING_PLANES * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); memcpy(&cl[1], &values->minimum_zw, sizeof(values->minimum_zw)); memcpy(&cl[5], &values->maximum_zw, sizeof(values->maximum_zw)); } #define V3D21_Z_MIN_AND_MAX_CLIPPING_PLANES_length 9 #ifdef __gen_unpack_address static inline void V3D21_Z_MIN_AND_MAX_CLIPPING_PLANES_unpack(const uint8_t * restrict cl, struct V3D21_Z_MIN_AND_MAX_CLIPPING_PLANES * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->maximum_zw = __gen_unpack_float(cl, 40, 71); values->minimum_zw = __gen_unpack_float(cl, 8, 39); } #endif #define V3D21_CLIPPER_XY_SCALING_opcode 105 #define V3D21_CLIPPER_XY_SCALING_header \ .opcode = 105 struct V3D21_CLIPPER_XY_SCALING { uint32_t opcode; float viewport_half_height_in_1_16th_of_pixel; float viewport_half_width_in_1_16th_of_pixel; }; static inline void V3D21_CLIPPER_XY_SCALING_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_CLIPPER_XY_SCALING * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); memcpy(&cl[1], &values->viewport_half_width_in_1_16th_of_pixel, sizeof(values->viewport_half_width_in_1_16th_of_pixel)); memcpy(&cl[5], &values->viewport_half_height_in_1_16th_of_pixel, sizeof(values->viewport_half_height_in_1_16th_of_pixel)); } #define V3D21_CLIPPER_XY_SCALING_length 9 #ifdef __gen_unpack_address static inline void V3D21_CLIPPER_XY_SCALING_unpack(const uint8_t * restrict cl, struct V3D21_CLIPPER_XY_SCALING * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->viewport_half_height_in_1_16th_of_pixel = __gen_unpack_float(cl, 40, 71); values->viewport_half_width_in_1_16th_of_pixel = __gen_unpack_float(cl, 8, 39); } #endif #define V3D21_CLIPPER_Z_SCALE_AND_OFFSET_opcode 106 #define V3D21_CLIPPER_Z_SCALE_AND_OFFSET_header \ .opcode = 106 struct V3D21_CLIPPER_Z_SCALE_AND_OFFSET { uint32_t opcode; float viewport_z_offset_zc_to_zs; float viewport_z_scale_zc_to_zs; }; static inline void V3D21_CLIPPER_Z_SCALE_AND_OFFSET_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_CLIPPER_Z_SCALE_AND_OFFSET * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); memcpy(&cl[1], &values->viewport_z_scale_zc_to_zs, sizeof(values->viewport_z_scale_zc_to_zs)); memcpy(&cl[5], &values->viewport_z_offset_zc_to_zs, sizeof(values->viewport_z_offset_zc_to_zs)); } #define V3D21_CLIPPER_Z_SCALE_AND_OFFSET_length 9 #ifdef __gen_unpack_address static inline void V3D21_CLIPPER_Z_SCALE_AND_OFFSET_unpack(const uint8_t * restrict cl, struct V3D21_CLIPPER_Z_SCALE_AND_OFFSET * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->viewport_z_offset_zc_to_zs = __gen_unpack_float(cl, 40, 71); values->viewport_z_scale_zc_to_zs = __gen_unpack_float(cl, 8, 39); } #endif #define V3D21_TILE_BINNING_MODE_CONFIGURATION_opcode 112 #define V3D21_TILE_BINNING_MODE_CONFIGURATION_header\ .opcode = 112 struct V3D21_TILE_BINNING_MODE_CONFIGURATION { uint32_t opcode; bool double_buffer_in_non_ms_mode; uint32_t tile_allocation_block_size; #define BLOCK_SIZE_32 0 #define BLOCK_SIZE_64 1 #define BLOCK_SIZE_128 2 #define BLOCK_SIZE_256 3 uint32_t tile_allocation_initial_block_size; #define BLOCK_SIZE_32 0 #define BLOCK_SIZE_64 1 #define BLOCK_SIZE_128 2 #define BLOCK_SIZE_256 3 bool auto_initialise_tile_state_data_array; bool tile_buffer_64_bit_color_depth; bool multisample_mode_4x; uint32_t height_in_tiles; uint32_t width_in_tiles; uint32_t tile_state_data_array_address; uint32_t tile_allocation_memory_size; uint32_t tile_allocation_memory_address; }; static inline void V3D21_TILE_BINNING_MODE_CONFIGURATION_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_TILE_BINNING_MODE_CONFIGURATION * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); memcpy(&cl[1], &values->tile_allocation_memory_address, sizeof(values->tile_allocation_memory_address)); memcpy(&cl[5], &values->tile_allocation_memory_size, sizeof(values->tile_allocation_memory_size)); memcpy(&cl[9], &values->tile_state_data_array_address, sizeof(values->tile_state_data_array_address)); cl[13] = __gen_uint(values->width_in_tiles, 0, 7); cl[14] = __gen_uint(values->height_in_tiles, 0, 7); cl[15] = __gen_uint(values->double_buffer_in_non_ms_mode, 7, 7) | __gen_uint(values->tile_allocation_block_size, 5, 6) | __gen_uint(values->tile_allocation_initial_block_size, 3, 4) | __gen_uint(values->auto_initialise_tile_state_data_array, 2, 2) | __gen_uint(values->tile_buffer_64_bit_color_depth, 1, 1) | __gen_uint(values->multisample_mode_4x, 0, 0); } #define V3D21_TILE_BINNING_MODE_CONFIGURATION_length 16 #ifdef __gen_unpack_address static inline void V3D21_TILE_BINNING_MODE_CONFIGURATION_unpack(const uint8_t * restrict cl, struct V3D21_TILE_BINNING_MODE_CONFIGURATION * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->double_buffer_in_non_ms_mode = __gen_unpack_uint(cl, 127, 127); values->tile_allocation_block_size = __gen_unpack_uint(cl, 125, 126); values->tile_allocation_initial_block_size = __gen_unpack_uint(cl, 123, 124); values->auto_initialise_tile_state_data_array = __gen_unpack_uint(cl, 122, 122); values->tile_buffer_64_bit_color_depth = __gen_unpack_uint(cl, 121, 121); values->multisample_mode_4x = __gen_unpack_uint(cl, 120, 120); values->height_in_tiles = __gen_unpack_uint(cl, 112, 119); values->width_in_tiles = __gen_unpack_uint(cl, 104, 111); values->tile_state_data_array_address = __gen_unpack_uint(cl, 72, 103); values->tile_allocation_memory_size = __gen_unpack_uint(cl, 40, 71); values->tile_allocation_memory_address = __gen_unpack_uint(cl, 8, 39); } #endif #define V3D21_TILE_RENDERING_MODE_CONFIGURATION_opcode 113 #define V3D21_TILE_RENDERING_MODE_CONFIGURATION_header\ .opcode = 113 struct V3D21_TILE_RENDERING_MODE_CONFIGURATION { uint32_t opcode; bool double_buffer_in_non_ms_mode; bool early_z_early_cov_disable; bool early_z_update_direction_gt_ge; bool select_coverage_mode; bool enable_vg_mask_buffer; uint32_t memory_format; #define RASTER 0 #define T 1 #define LT 2 uint32_t decimate_mode; uint32_t non_hdr_frame_buffer_color_format; #define RENDERING_CONFIG_BGR565_DITHERED 0 #define RENDERING_CONFIG_RGBA8888 1 #define RENDERING_CONFIG_BGR565_NO_DITHER 2 bool tile_buffer_64_bit_color_depth; bool multisample_mode_4x; uint32_t height_pixels; uint32_t width_pixels; __gen_address_type memory_address; }; static inline void V3D21_TILE_RENDERING_MODE_CONFIGURATION_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_TILE_RENDERING_MODE_CONFIGURATION * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); __gen_emit_reloc(data, &values->memory_address); cl[ 1] = __gen_address_offset(&values->memory_address); cl[ 2] = __gen_address_offset(&values->memory_address) >> 8; cl[ 3] = __gen_address_offset(&values->memory_address) >> 16; cl[ 4] = __gen_address_offset(&values->memory_address) >> 24; cl[ 5] = __gen_uint(values->width_pixels, 0, 15); cl[ 6] = __gen_uint(values->width_pixels, 0, 15) >> 8; cl[ 7] = __gen_uint(values->height_pixels, 0, 15); cl[ 8] = __gen_uint(values->height_pixels, 0, 15) >> 8; cl[ 9] = __gen_uint(values->memory_format, 6, 7) | __gen_uint(values->decimate_mode, 4, 5) | __gen_uint(values->non_hdr_frame_buffer_color_format, 2, 3) | __gen_uint(values->tile_buffer_64_bit_color_depth, 1, 1) | __gen_uint(values->multisample_mode_4x, 0, 0); cl[10] = __gen_uint(values->double_buffer_in_non_ms_mode, 4, 4) | __gen_uint(values->early_z_early_cov_disable, 3, 3) | __gen_uint(values->early_z_update_direction_gt_ge, 2, 2) | __gen_uint(values->select_coverage_mode, 1, 1) | __gen_uint(values->enable_vg_mask_buffer, 0, 0); } #define V3D21_TILE_RENDERING_MODE_CONFIGURATION_length 11 #ifdef __gen_unpack_address static inline void V3D21_TILE_RENDERING_MODE_CONFIGURATION_unpack(const uint8_t * restrict cl, struct V3D21_TILE_RENDERING_MODE_CONFIGURATION * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->double_buffer_in_non_ms_mode = __gen_unpack_uint(cl, 84, 84); values->early_z_early_cov_disable = __gen_unpack_uint(cl, 83, 83); values->early_z_update_direction_gt_ge = __gen_unpack_uint(cl, 82, 82); values->select_coverage_mode = __gen_unpack_uint(cl, 81, 81); values->enable_vg_mask_buffer = __gen_unpack_uint(cl, 80, 80); values->memory_format = __gen_unpack_uint(cl, 78, 79); values->decimate_mode = __gen_unpack_uint(cl, 76, 77); values->non_hdr_frame_buffer_color_format = __gen_unpack_uint(cl, 74, 75); values->tile_buffer_64_bit_color_depth = __gen_unpack_uint(cl, 73, 73); values->multisample_mode_4x = __gen_unpack_uint(cl, 72, 72); values->height_pixels = __gen_unpack_uint(cl, 56, 71); values->width_pixels = __gen_unpack_uint(cl, 40, 55); values->memory_address = __gen_unpack_address(cl, 8, 39); } #endif #define V3D21_TILE_COORDINATES_opcode 115 #define V3D21_TILE_COORDINATES_header \ .opcode = 115 struct V3D21_TILE_COORDINATES { uint32_t opcode; uint32_t tile_row_number; uint32_t tile_column_number; }; static inline void V3D21_TILE_COORDINATES_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_TILE_COORDINATES * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); cl[ 1] = __gen_uint(values->tile_column_number, 0, 7); cl[ 2] = __gen_uint(values->tile_row_number, 0, 7); } #define V3D21_TILE_COORDINATES_length 3 #ifdef __gen_unpack_address static inline void V3D21_TILE_COORDINATES_unpack(const uint8_t * restrict cl, struct V3D21_TILE_COORDINATES * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->tile_row_number = __gen_unpack_uint(cl, 16, 23); values->tile_column_number = __gen_unpack_uint(cl, 8, 15); } #endif #define V3D21_GEM_RELOCATIONS_opcode 254 #define V3D21_GEM_RELOCATIONS_header \ .opcode = 254 struct V3D21_GEM_RELOCATIONS { uint32_t opcode; uint32_t buffer_1; uint32_t buffer_0; }; static inline void V3D21_GEM_RELOCATIONS_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_GEM_RELOCATIONS * restrict values) { cl[ 0] = __gen_uint(values->opcode, 0, 7); memcpy(&cl[1], &values->buffer_0, sizeof(values->buffer_0)); memcpy(&cl[5], &values->buffer_1, sizeof(values->buffer_1)); } #define V3D21_GEM_RELOCATIONS_length 9 #ifdef __gen_unpack_address static inline void V3D21_GEM_RELOCATIONS_unpack(const uint8_t * restrict cl, struct V3D21_GEM_RELOCATIONS * restrict values) { values->opcode = __gen_unpack_uint(cl, 0, 7); values->buffer_1 = __gen_unpack_uint(cl, 40, 71); values->buffer_0 = __gen_unpack_uint(cl, 8, 39); } #endif #define V3D21_SHADER_RECORD_header \ struct V3D21_SHADER_RECORD { bool fragment_shader_is_single_threaded; bool point_size_included_in_shaded_vertex_data; bool enable_clipping; uint32_t fragment_shader_number_of_uniforms_not_used_currently; uint32_t fragment_shader_number_of_varyings; __gen_address_type fragment_shader_code_address; uint32_t fragment_shader_uniforms_address; uint32_t vertex_shader_number_of_uniforms_not_used_currently; uint32_t vertex_shader_attribute_array_select_bits; uint32_t vertex_shader_total_attributes_size; __gen_address_type vertex_shader_code_address; uint32_t vertex_shader_uniforms_address; uint32_t coordinate_shader_number_of_uniforms_not_used_currently; uint32_t coordinate_shader_attribute_array_select_bits; uint32_t coordinate_shader_total_attributes_size; __gen_address_type coordinate_shader_code_address; uint32_t coordinate_shader_uniforms_address; }; static inline void V3D21_SHADER_RECORD_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_SHADER_RECORD * restrict values) { cl[ 0] = __gen_uint(values->fragment_shader_is_single_threaded, 0, 0) | __gen_uint(values->point_size_included_in_shaded_vertex_data, 1, 1) | __gen_uint(values->enable_clipping, 2, 2); cl[ 1] = 0; cl[ 2] = __gen_uint(values->fragment_shader_number_of_uniforms_not_used_currently, 0, 15); cl[ 3] = __gen_uint(values->fragment_shader_number_of_uniforms_not_used_currently, 0, 15) >> 8 | __gen_uint(values->fragment_shader_number_of_varyings, 0, 7); __gen_emit_reloc(data, &values->fragment_shader_code_address); cl[ 4] = __gen_address_offset(&values->fragment_shader_code_address); cl[ 5] = __gen_address_offset(&values->fragment_shader_code_address) >> 8; cl[ 6] = __gen_address_offset(&values->fragment_shader_code_address) >> 16; cl[ 7] = __gen_address_offset(&values->fragment_shader_code_address) >> 24; memcpy(&cl[8], &values->fragment_shader_uniforms_address, sizeof(values->fragment_shader_uniforms_address)); cl[12] = __gen_uint(values->vertex_shader_number_of_uniforms_not_used_currently, 0, 15); cl[13] = __gen_uint(values->vertex_shader_number_of_uniforms_not_used_currently, 0, 15) >> 8; cl[14] = __gen_uint(values->vertex_shader_attribute_array_select_bits, 0, 7); cl[15] = __gen_uint(values->vertex_shader_total_attributes_size, 0, 7); __gen_emit_reloc(data, &values->vertex_shader_code_address); cl[16] = __gen_address_offset(&values->vertex_shader_code_address) | __gen_uint(values->vertex_shader_uniforms_address, 0, 31); cl[17] = __gen_address_offset(&values->vertex_shader_code_address) >> 8 | __gen_uint(values->vertex_shader_uniforms_address, 0, 31) >> 8; cl[18] = __gen_address_offset(&values->vertex_shader_code_address) >> 16 | __gen_uint(values->vertex_shader_uniforms_address, 0, 31) >> 16; cl[19] = __gen_address_offset(&values->vertex_shader_code_address) >> 24 | __gen_uint(values->vertex_shader_uniforms_address, 0, 31) >> 24; cl[20] = 0; cl[21] = 0; cl[22] = 0; cl[23] = 0; cl[24] = __gen_uint(values->coordinate_shader_number_of_uniforms_not_used_currently, 0, 15); cl[25] = __gen_uint(values->coordinate_shader_number_of_uniforms_not_used_currently, 0, 15) >> 8; cl[26] = __gen_uint(values->coordinate_shader_attribute_array_select_bits, 0, 7); cl[27] = __gen_uint(values->coordinate_shader_total_attributes_size, 0, 7); __gen_emit_reloc(data, &values->coordinate_shader_code_address); cl[28] = __gen_address_offset(&values->coordinate_shader_code_address); cl[29] = __gen_address_offset(&values->coordinate_shader_code_address) >> 8; cl[30] = __gen_address_offset(&values->coordinate_shader_code_address) >> 16; cl[31] = __gen_address_offset(&values->coordinate_shader_code_address) >> 24; memcpy(&cl[32], &values->coordinate_shader_uniforms_address, sizeof(values->coordinate_shader_uniforms_address)); } #define V3D21_SHADER_RECORD_length 36 #ifdef __gen_unpack_address static inline void V3D21_SHADER_RECORD_unpack(const uint8_t * restrict cl, struct V3D21_SHADER_RECORD * restrict values) { values->fragment_shader_is_single_threaded = __gen_unpack_uint(cl, 0, 0); values->point_size_included_in_shaded_vertex_data = __gen_unpack_uint(cl, 1, 1); values->enable_clipping = __gen_unpack_uint(cl, 2, 2); values->fragment_shader_number_of_uniforms_not_used_currently = __gen_unpack_uint(cl, 16, 31); values->fragment_shader_number_of_varyings = __gen_unpack_uint(cl, 24, 31); values->fragment_shader_code_address = __gen_unpack_address(cl, 32, 63); values->fragment_shader_uniforms_address = __gen_unpack_uint(cl, 64, 95); values->vertex_shader_number_of_uniforms_not_used_currently = __gen_unpack_uint(cl, 96, 111); values->vertex_shader_attribute_array_select_bits = __gen_unpack_uint(cl, 112, 119); values->vertex_shader_total_attributes_size = __gen_unpack_uint(cl, 120, 127); values->vertex_shader_code_address = __gen_unpack_address(cl, 128, 159); values->vertex_shader_uniforms_address = __gen_unpack_uint(cl, 128, 159); values->coordinate_shader_number_of_uniforms_not_used_currently = __gen_unpack_uint(cl, 192, 207); values->coordinate_shader_attribute_array_select_bits = __gen_unpack_uint(cl, 208, 215); values->coordinate_shader_total_attributes_size = __gen_unpack_uint(cl, 216, 223); values->coordinate_shader_code_address = __gen_unpack_address(cl, 224, 255); values->coordinate_shader_uniforms_address = __gen_unpack_uint(cl, 256, 287); } #endif #define V3D21_ATTRIBUTE_RECORD_header \ struct V3D21_ATTRIBUTE_RECORD { __gen_address_type address; uint32_t number_of_bytes_minus_1; uint32_t stride; uint32_t vertex_shader_vpm_offset; uint32_t coordinate_shader_vpm_offset; }; static inline void V3D21_ATTRIBUTE_RECORD_pack(__gen_user_data *data, uint8_t * restrict cl, const struct V3D21_ATTRIBUTE_RECORD * restrict values) { __gen_emit_reloc(data, &values->address); cl[ 0] = __gen_address_offset(&values->address); cl[ 1] = __gen_address_offset(&values->address) >> 8; cl[ 2] = __gen_address_offset(&values->address) >> 16; cl[ 3] = __gen_address_offset(&values->address) >> 24; cl[ 4] = __gen_uint(values->number_of_bytes_minus_1, 0, 7); cl[ 5] = __gen_uint(values->stride, 0, 7); cl[ 6] = __gen_uint(values->vertex_shader_vpm_offset, 0, 7); cl[ 7] = __gen_uint(values->coordinate_shader_vpm_offset, 0, 7); } #define V3D21_ATTRIBUTE_RECORD_length 8 #ifdef __gen_unpack_address static inline void V3D21_ATTRIBUTE_RECORD_unpack(const uint8_t * restrict cl, struct V3D21_ATTRIBUTE_RECORD * restrict values) { values->address = __gen_unpack_address(cl, 0, 31); values->number_of_bytes_minus_1 = __gen_unpack_uint(cl, 32, 39); values->stride = __gen_unpack_uint(cl, 40, 47); values->vertex_shader_vpm_offset = __gen_unpack_uint(cl, 48, 55); values->coordinate_shader_vpm_offset = __gen_unpack_uint(cl, 56, 63); } #endif #endif /* V3D21_PACK_H */