/* * Mesa 3-D graphics library * * Copyright (C) 2014 LunarG, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. * * Authors: * Chia-I Wu */ #include #include #include "genhw/genhw.h" #include "../shader/toy_compiler.h" #include "intel_winsys.h" #include "ilo_builder.h" static const uint32_t * writer_pointer(const struct ilo_builder *builder, enum ilo_builder_writer_type which, unsigned offset) { const struct ilo_builder_writer *writer = &builder->writers[which]; return (const uint32_t *) ((const char *) writer->ptr + offset); } static uint32_t _util_printf_format(5, 6) writer_dw(const struct ilo_builder *builder, enum ilo_builder_writer_type which, unsigned offset, unsigned dw_index, const char *format, ...) { const uint32_t *dw = writer_pointer(builder, which, offset); va_list ap; char desc[16]; int len; ilo_printf("0x%08x: 0x%08x: ", offset + (dw_index << 2), dw[dw_index]); va_start(ap, format); len = vsnprintf(desc, sizeof(desc), format, ap); va_end(ap); if (len >= sizeof(desc)) { len = sizeof(desc) - 1; desc[len] = '\0'; } if (desc[len - 1] == '\n') { desc[len - 1] = '\0'; ilo_printf("%8s: \n", desc); } else { ilo_printf("%8s: ", desc); } return dw[dw_index]; } static void writer_decode_blob(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t); const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i += 4) { const uint32_t *dw = writer_pointer(builder, which, offset); writer_dw(builder, which, offset, 0, "BLOB%d", i / 4); switch (count - i) { case 1: ilo_printf("(%10.4f, %10c, %10c, %10c) " "(0x%08x, %10c, %10c, %10c)\n", uif(dw[0]), 'X', 'X', 'X', dw[0], 'X', 'X', 'X'); break; case 2: ilo_printf("(%10.4f, %10.4f, %10c, %10c) " "(0x%08x, 0x%08x, %10c, %10c)\n", uif(dw[0]), uif(dw[1]), 'X', 'X', dw[0], dw[1], 'X', 'X'); break; case 3: ilo_printf("(%10.4f, %10.4f, %10.4f, %10c) " "(0x%08x, 0x%08x, 0x%08x, %10c)\n", uif(dw[0]), uif(dw[1]), uif(dw[2]), 'X', dw[0], dw[1], dw[2], 'X'); break; default: ilo_printf("(%10.4f, %10.4f, %10.4f, %10.4f) " "(0x%08x, 0x%08x, 0x%08x, 0x%08x)\n", uif(dw[0]), uif(dw[1]), uif(dw[2]), uif(dw[3]), dw[0], dw[1], dw[2], dw[3]); break; } offset += state_size * 4; } } static void writer_decode_clip_viewport(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 4; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i++) { uint32_t dw; dw = writer_dw(builder, which, offset, 0, "CLIP VP%d", i); ilo_printf("xmin = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 1, "CLIP VP%d", i); ilo_printf("xmax = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 2, "CLIP VP%d", i); ilo_printf("ymin = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 3, "CLIP VP%d", i); ilo_printf("ymax = %f\n", uif(dw)); offset += state_size; } } static void writer_decode_sf_clip_viewport_gen7(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 16; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i++) { uint32_t dw; dw = writer_dw(builder, which, offset, 0, "SF_CLIP VP%d", i); ilo_printf("m00 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 1, "SF_CLIP VP%d", i); ilo_printf("m11 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 2, "SF_CLIP VP%d", i); ilo_printf("m22 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 3, "SF_CLIP VP%d", i); ilo_printf("m30 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 4, "SF_CLIP VP%d", i); ilo_printf("m31 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 5, "SF_CLIP VP%d", i); ilo_printf("m32 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 8, "SF_CLIP VP%d", i); ilo_printf("guardband xmin = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 9, "SF_CLIP VP%d", i); ilo_printf("guardband xmax = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 10, "SF_CLIP VP%d", i); ilo_printf("guardband ymin = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 11, "SF_CLIP VP%d", i); ilo_printf("guardband ymax = %f\n", uif(dw)); if (ilo_dev_gen(builder->dev) >= ILO_GEN(8)) { dw = writer_dw(builder, which, offset, 12, "SF_CLIP VP%d", i); ilo_printf("extent xmin = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 13, "SF_CLIP VP%d", i); ilo_printf("extent xmax = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 14, "SF_CLIP VP%d", i); ilo_printf("extent ymin = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 15, "SF_CLIP VP%d", i); ilo_printf("extent ymax = %f\n", uif(dw)); } offset += state_size; } } static void writer_decode_sf_viewport_gen6(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 8; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i++) { uint32_t dw; dw = writer_dw(builder, which, offset, 0, "SF VP%d", i); ilo_printf("m00 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 1, "SF VP%d", i); ilo_printf("m11 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 2, "SF VP%d", i); ilo_printf("m22 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 3, "SF VP%d", i); ilo_printf("m30 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 4, "SF VP%d", i); ilo_printf("m31 = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 5, "SF VP%d", i); ilo_printf("m32 = %f\n", uif(dw)); offset += state_size; } } static void writer_decode_sf_viewport(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { if (ilo_dev_gen(builder->dev) >= ILO_GEN(7)) writer_decode_sf_clip_viewport_gen7(builder, which, item); else writer_decode_sf_viewport_gen6(builder, which, item); } static void writer_decode_scissor_rect(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 2; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i++) { uint32_t dw; dw = writer_dw(builder, which, offset, 0, "SCISSOR%d", i); ilo_printf("xmin %d, ymin %d\n", GEN_EXTRACT(dw, GEN6_SCISSOR_DW0_MIN_X), GEN_EXTRACT(dw, GEN6_SCISSOR_DW0_MIN_Y)); dw = writer_dw(builder, which, offset, 1, "SCISSOR%d", i); ilo_printf("xmax %d, ymax %d\n", GEN_EXTRACT(dw, GEN6_SCISSOR_DW1_MAX_X), GEN_EXTRACT(dw, GEN6_SCISSOR_DW1_MAX_Y)); offset += state_size; } } static void writer_decode_cc_viewport(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 2; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i++) { uint32_t dw; dw = writer_dw(builder, which, offset, 0, "CC VP%d", i); ilo_printf("min_depth = %f\n", uif(dw)); dw = writer_dw(builder, which, offset, 1, "CC VP%d", i); ilo_printf("max_depth = %f\n", uif(dw)); offset += state_size; } } static void writer_decode_color_calc(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { uint32_t dw; dw = writer_dw(builder, which, item->offset, 0, "CC"); ilo_printf("alpha test format %s, round disable %d, " "stencil ref %d, bf stencil ref %d\n", GEN_EXTRACT(dw, GEN6_CC_DW0_ALPHATEST) ? "FLOAT32" : "UNORM8", (bool) (dw & GEN6_CC_DW0_ROUND_DISABLE_DISABLE), GEN_EXTRACT(dw, GEN6_CC_DW0_STENCIL_REF), GEN_EXTRACT(dw, GEN6_CC_DW0_STENCIL1_REF)); writer_dw(builder, which, item->offset, 1, "CC\n"); dw = writer_dw(builder, which, item->offset, 2, "CC"); ilo_printf("constant red %f\n", uif(dw)); dw = writer_dw(builder, which, item->offset, 3, "CC"); ilo_printf("constant green %f\n", uif(dw)); dw = writer_dw(builder, which, item->offset, 4, "CC"); ilo_printf("constant blue %f\n", uif(dw)); dw = writer_dw(builder, which, item->offset, 5, "CC"); ilo_printf("constant alpha %f\n", uif(dw)); } static void writer_decode_depth_stencil(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { uint32_t dw; dw = writer_dw(builder, which, item->offset, 0, "D_S"); ilo_printf("stencil %sable, func %d, write %sable\n", (dw & GEN6_ZS_DW0_STENCIL_TEST_ENABLE) ? "en" : "dis", GEN_EXTRACT(dw, GEN6_ZS_DW0_STENCIL_FUNC), (dw & GEN6_ZS_DW0_STENCIL_WRITE_ENABLE) ? "en" : "dis"); dw = writer_dw(builder, which, item->offset, 1, "D_S"); ilo_printf("stencil test mask 0x%x, write mask 0x%x\n", GEN_EXTRACT(dw, GEN6_ZS_DW1_STENCIL_TEST_MASK), GEN_EXTRACT(dw, GEN6_ZS_DW1_STENCIL_WRITE_MASK)); dw = writer_dw(builder, which, item->offset, 2, "D_S"); ilo_printf("depth test %sable, func %d, write %sable\n", (dw & GEN6_ZS_DW2_DEPTH_TEST_ENABLE) ? "en" : "dis", GEN_EXTRACT(dw, GEN6_ZS_DW2_DEPTH_FUNC), (dw & GEN6_ZS_DW2_DEPTH_WRITE_ENABLE) ? "en" : "dis"); } static void writer_decode_blend(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 2; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; if (ilo_dev_gen(builder->dev) >= ILO_GEN(8)) { writer_dw(builder, which, offset, 0, "BLEND\n"); offset += 4; } for (i = 0; i < count; i++) { writer_dw(builder, which, offset, 0, "BLEND%d\n", i); writer_dw(builder, which, offset, 1, "BLEND%d\n", i); offset += state_size; } } static void writer_decode_sampler(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 4; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i++) { writer_dw(builder, which, offset, 0, "WM SAMP%d", i); ilo_printf("filtering\n"); writer_dw(builder, which, offset, 1, "WM SAMP%d", i); ilo_printf("wrapping, lod\n"); writer_dw(builder, which, offset, 2, "WM SAMP%d", i); ilo_printf("default color pointer\n"); writer_dw(builder, which, offset, 3, "WM SAMP%d", i); ilo_printf("chroma key, aniso\n"); offset += state_size; } } static void writer_decode_interface_descriptor(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 8; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i++) { writer_dw(builder, which, offset, 0, "IDRT[%d]", i); ilo_printf("kernel\n"); writer_dw(builder, which, offset, 1, "IDRT[%d]", i); ilo_printf("spf, fp mode\n"); writer_dw(builder, which, offset, 2, "IDRT[%d]", i); ilo_printf("sampler\n"); writer_dw(builder, which, offset, 3, "IDRT[%d]", i); ilo_printf("binding table\n"); writer_dw(builder, which, offset, 4, "IDRT[%d]", i); ilo_printf("curbe read len\n"); writer_dw(builder, which, offset, 5, "IDRT[%d]", i); ilo_printf("rounding mode, slm size\n"); writer_dw(builder, which, offset, 6, "IDRT[%d]", i); ilo_printf("cross-thread curbe read len\n"); writer_dw(builder, which, offset, 7, "IDRT[%d]", i); ilo_printf("mbz\n"); offset += state_size; } } static void writer_decode_surface_gen7(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { uint32_t dw; if (ilo_dev_gen(builder->dev) >= ILO_GEN(8)) { dw = writer_dw(builder, which, item->offset, 0, "SURF"); ilo_printf("type 0x%x, format 0x%x, tiling %d, %s array\n", GEN_EXTRACT(dw, GEN7_SURFACE_DW0_TYPE), GEN_EXTRACT(dw, GEN7_SURFACE_DW0_FORMAT), GEN_EXTRACT(dw, GEN8_SURFACE_DW0_TILING), (dw & GEN7_SURFACE_DW0_IS_ARRAY) ? "is" : "not"); writer_dw(builder, which, item->offset, 1, "SURF"); ilo_printf("qpitch\n"); } else { dw = writer_dw(builder, which, item->offset, 0, "SURF"); ilo_printf("type 0x%x, format 0x%x, tiling %d, %s array\n", GEN_EXTRACT(dw, GEN7_SURFACE_DW0_TYPE), GEN_EXTRACT(dw, GEN7_SURFACE_DW0_FORMAT), GEN_EXTRACT(dw, GEN7_SURFACE_DW0_TILING), (dw & GEN7_SURFACE_DW0_IS_ARRAY) ? "is" : "not"); writer_dw(builder, which, item->offset, 1, "SURF"); ilo_printf("offset\n"); } dw = writer_dw(builder, which, item->offset, 2, "SURF"); ilo_printf("%dx%d size\n", GEN_EXTRACT(dw, GEN7_SURFACE_DW2_WIDTH), GEN_EXTRACT(dw, GEN7_SURFACE_DW2_HEIGHT)); dw = writer_dw(builder, which, item->offset, 3, "SURF"); ilo_printf("depth %d, pitch %d\n", GEN_EXTRACT(dw, GEN7_SURFACE_DW3_DEPTH), GEN_EXTRACT(dw, GEN7_SURFACE_DW3_PITCH)); dw = writer_dw(builder, which, item->offset, 4, "SURF"); ilo_printf("min array element %d, array extent %d\n", GEN_EXTRACT(dw, GEN7_SURFACE_DW4_MIN_ARRAY_ELEMENT), GEN_EXTRACT(dw, GEN7_SURFACE_DW4_RT_VIEW_EXTENT)); dw = writer_dw(builder, which, item->offset, 5, "SURF"); ilo_printf("mip base %d, mips %d, x,y offset: %d,%d\n", GEN_EXTRACT(dw, GEN7_SURFACE_DW5_MIN_LOD), GEN_EXTRACT(dw, GEN7_SURFACE_DW5_MIP_COUNT_LOD), GEN_EXTRACT(dw, GEN7_SURFACE_DW5_X_OFFSET), GEN_EXTRACT(dw, GEN7_SURFACE_DW5_Y_OFFSET)); writer_dw(builder, which, item->offset, 6, "SURF\n"); writer_dw(builder, which, item->offset, 7, "SURF\n"); if (ilo_dev_gen(builder->dev) >= ILO_GEN(8)) { writer_dw(builder, which, item->offset, 8, "SURF\n"); writer_dw(builder, which, item->offset, 9, "SURF\n"); writer_dw(builder, which, item->offset, 10, "SURF\n"); writer_dw(builder, which, item->offset, 11, "SURF\n"); writer_dw(builder, which, item->offset, 12, "SURF\n"); } } static void writer_decode_surface_gen6(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { uint32_t dw; dw = writer_dw(builder, which, item->offset, 0, "SURF"); ilo_printf("type 0x%x, format 0x%x\n", GEN_EXTRACT(dw, GEN6_SURFACE_DW0_TYPE), GEN_EXTRACT(dw, GEN6_SURFACE_DW0_FORMAT)); writer_dw(builder, which, item->offset, 1, "SURF"); ilo_printf("offset\n"); dw = writer_dw(builder, which, item->offset, 2, "SURF"); ilo_printf("%dx%d size, %d mips\n", GEN_EXTRACT(dw, GEN6_SURFACE_DW2_WIDTH), GEN_EXTRACT(dw, GEN6_SURFACE_DW2_HEIGHT), GEN_EXTRACT(dw, GEN6_SURFACE_DW2_MIP_COUNT_LOD)); dw = writer_dw(builder, which, item->offset, 3, "SURF"); ilo_printf("pitch %d, tiling %d\n", GEN_EXTRACT(dw, GEN6_SURFACE_DW3_PITCH), GEN_EXTRACT(dw, GEN6_SURFACE_DW3_TILING)); dw = writer_dw(builder, which, item->offset, 4, "SURF"); ilo_printf("mip base %d\n", GEN_EXTRACT(dw, GEN6_SURFACE_DW4_MIN_LOD)); dw = writer_dw(builder, which, item->offset, 5, "SURF"); ilo_printf("x,y offset: %d,%d\n", GEN_EXTRACT(dw, GEN6_SURFACE_DW5_X_OFFSET), GEN_EXTRACT(dw, GEN6_SURFACE_DW5_Y_OFFSET)); } static void writer_decode_surface(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { if (ilo_dev_gen(builder->dev) >= ILO_GEN(7)) writer_decode_surface_gen7(builder, which, item); else writer_decode_surface_gen6(builder, which, item); } static void writer_decode_binding_table(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const unsigned state_size = sizeof(uint32_t) * 1; const unsigned count = item->size / state_size; unsigned offset = item->offset; unsigned i; for (i = 0; i < count; i++) { writer_dw(builder, which, offset, 0, "BIND"); ilo_printf("BINDING_TABLE_STATE[%d]\n", i); offset += state_size; } } static void writer_decode_kernel(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item) { const void *kernel; ilo_printf("0x%08x:\n", item->offset); kernel = (const void *) writer_pointer(builder, which, item->offset); toy_compiler_disassemble(builder->dev, kernel, item->size, true); } static const struct { void (*func)(const struct ilo_builder *builder, enum ilo_builder_writer_type which, const struct ilo_builder_item *item); } writer_decode_table[ILO_BUILDER_ITEM_COUNT] = { [ILO_BUILDER_ITEM_BLOB] = { writer_decode_blob }, [ILO_BUILDER_ITEM_CLIP_VIEWPORT] = { writer_decode_clip_viewport }, [ILO_BUILDER_ITEM_SF_VIEWPORT] = { writer_decode_sf_viewport }, [ILO_BUILDER_ITEM_SCISSOR_RECT] = { writer_decode_scissor_rect }, [ILO_BUILDER_ITEM_CC_VIEWPORT] = { writer_decode_cc_viewport }, [ILO_BUILDER_ITEM_COLOR_CALC] = { writer_decode_color_calc }, [ILO_BUILDER_ITEM_DEPTH_STENCIL] = { writer_decode_depth_stencil }, [ILO_BUILDER_ITEM_BLEND] = { writer_decode_blend }, [ILO_BUILDER_ITEM_SAMPLER] = { writer_decode_sampler }, [ILO_BUILDER_ITEM_INTERFACE_DESCRIPTOR] = { writer_decode_interface_descriptor }, [ILO_BUILDER_ITEM_SURFACE] = { writer_decode_surface }, [ILO_BUILDER_ITEM_BINDING_TABLE] = { writer_decode_binding_table }, [ILO_BUILDER_ITEM_KERNEL] = { writer_decode_kernel }, }; static void ilo_builder_writer_decode_items(struct ilo_builder *builder, enum ilo_builder_writer_type which) { struct ilo_builder_writer *writer = &builder->writers[which]; int i; if (!writer->item_used) return; writer->ptr = intel_bo_map(writer->bo, false); if (!writer->ptr) return; for (i = 0; i < writer->item_used; i++) { const struct ilo_builder_item *item = &writer->items[i]; writer_decode_table[item->type].func(builder, which, item); } intel_bo_unmap(writer->bo); writer->ptr = NULL; } static void ilo_builder_writer_decode(struct ilo_builder *builder, enum ilo_builder_writer_type which) { struct ilo_builder_writer *writer = &builder->writers[which]; assert(writer->bo && !writer->ptr); switch (which) { case ILO_BUILDER_WRITER_BATCH: ilo_printf("decoding batch buffer: %d bytes\n", writer->used); if (writer->used) intel_winsys_decode_bo(builder->winsys, writer->bo, writer->used); ilo_printf("decoding dynamic/surface buffer: %d states\n", writer->item_used); ilo_builder_writer_decode_items(builder, which); break; case ILO_BUILDER_WRITER_INSTRUCTION: if (true) { ilo_printf("skipping instruction buffer: %d kernels\n", writer->item_used); } else { ilo_printf("decoding instruction buffer: %d kernels\n", writer->item_used); ilo_builder_writer_decode_items(builder, which); } break; default: break; } } /** * Decode the builder according to the recorded items. This can be called * only after a successful ilo_builder_end(). */ void ilo_builder_decode(struct ilo_builder *builder) { int i; assert(!builder->unrecoverable_error); for (i = 0; i < ILO_BUILDER_WRITER_COUNT; i++) ilo_builder_writer_decode(builder, i); }