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authorMatt A. Tobin <email@mattatobin.com>2020-04-07 23:30:51 -0400
committerwolfbeast <mcwerewolf@wolfbeast.com>2020-04-14 13:26:42 +0200
commit277f2116b6660e9bbe7f5d67524be57eceb49b8b (patch)
tree4595f7cc71418f71b9a97dfaeb03a30aa60f336a /third_party/aom/tools
parentd270404436f6e84ffa3b92af537ac721bf10d66e (diff)
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Move aom source to a sub-directory under media/libaom
There is no damned reason to treat this differently than any other media lib given its license and there never was.
Diffstat (limited to 'third_party/aom/tools')
-rw-r--r--third_party/aom/tools/aggregate_entropy_stats.py39
-rw-r--r--third_party/aom/tools/aom_entropy_optimizer.c758
-rwxr-xr-xthird_party/aom/tools/cpplint.py4756
-rw-r--r--third_party/aom/tools/diff.py132
-rw-r--r--third_party/aom/tools/dump_obu.cc164
-rwxr-xr-xthird_party/aom/tools/gen_authors.sh10
-rwxr-xr-xthird_party/aom/tools/gen_constrained_tokenset.py120
-rw-r--r--third_party/aom/tools/inspect-cli.js39
-rw-r--r--third_party/aom/tools/inspect-post.js1
-rwxr-xr-xthird_party/aom/tools/intersect-diffs.py78
-rwxr-xr-xthird_party/aom/tools/lint-hunks.py146
-rw-r--r--third_party/aom/tools/obu_parser.cc190
-rw-r--r--third_party/aom/tools/obu_parser.h27
-rw-r--r--third_party/aom/tools/txfm_analyzer/txfm_gen_code.cc580
-rw-r--r--third_party/aom/tools/txfm_analyzer/txfm_graph.cc943
-rw-r--r--third_party/aom/tools/txfm_analyzer/txfm_graph.h161
-rwxr-xr-xthird_party/aom/tools/wrap-commit-msg.py72
17 files changed, 0 insertions, 8216 deletions
diff --git a/third_party/aom/tools/aggregate_entropy_stats.py b/third_party/aom/tools/aggregate_entropy_stats.py
deleted file mode 100644
index 7cb4d18e1..000000000
--- a/third_party/aom/tools/aggregate_entropy_stats.py
+++ /dev/null
@@ -1,39 +0,0 @@
-#!/usr/bin/env python
-## Copyright (c) 2017, Alliance for Open Media. All rights reserved
-##
-## This source code is subject to the terms of the BSD 2 Clause License and
-## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
-## was not distributed with this source code in the LICENSE file, you can
-## obtain it at www.aomedia.org/license/software. If the Alliance for Open
-## Media Patent License 1.0 was not distributed with this source code in the
-## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
-##
-"""Aggregate multiple entropy stats output which is written in 32-bit int.
-
-python ./aggregate_entropy_stats.py [dir of stats files] [keyword of filenames]
- [filename of final stats]
-"""
-
-__author__ = "yuec@google.com"
-
-import os
-import sys
-import numpy as np
-
-def main():
- dir = sys.argv[1]
- sum = []
- for fn in os.listdir(dir):
- if sys.argv[2] in fn:
- stats = np.fromfile(dir + fn, dtype=np.int32)
- if len(sum) == 0:
- sum = stats
- else:
- sum = np.add(sum, stats)
- if len(sum) == 0:
- print("No stats file is found. Double-check directory and keyword?")
- else:
- sum.tofile(dir+sys.argv[3])
-
-if __name__ == '__main__':
- main()
diff --git a/third_party/aom/tools/aom_entropy_optimizer.c b/third_party/aom/tools/aom_entropy_optimizer.c
deleted file mode 100644
index 551adf4f2..000000000
--- a/third_party/aom/tools/aom_entropy_optimizer.c
+++ /dev/null
@@ -1,758 +0,0 @@
-/*
- * Copyright (c) 2017, Alliance for Open Media. All rights reserved
- *
- * This source code is subject to the terms of the BSD 2 Clause License and
- * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
- * was not distributed with this source code in the LICENSE file, you can
- * obtain it at www.aomedia.org/license/software. If the Alliance for Open
- * Media Patent License 1.0 was not distributed with this source code in the
- * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
- */
-
-// This tool is a gadget for offline probability training.
-// A binary executable aom_entropy_optimizer will be generated in tools/. It
-// parses a binary file consisting of counts written in the format of
-// FRAME_COUNTS in entropymode.h, and computes optimized probability tables
-// and CDF tables, which will be written to a new c file optimized_probs.c
-// according to format in the codebase.
-//
-// Command line: ./aom_entropy_optimizer [directory of the count file]
-//
-// The input file can either be generated by encoding a single clip by
-// turning on entropy_stats experiment, or be collected at a larger scale at
-// which a python script which will be provided soon can be used to aggregate
-// multiple stats output.
-
-#include <assert.h>
-#include <stdio.h>
-
-#include "config/aom_config.h"
-
-#include "av1/encoder/encoder.h"
-
-#define SPACES_PER_TAB 2
-#define CDF_MAX_SIZE 16
-
-typedef unsigned int aom_count_type;
-// A log file recording parsed counts
-static FILE *logfile; // TODO(yuec): make it a command line option
-
-static void counts_to_cdf(const aom_count_type *counts, aom_cdf_prob *cdf,
- int modes) {
- int64_t csum[CDF_MAX_SIZE];
- assert(modes <= CDF_MAX_SIZE);
-
- csum[0] = counts[0] + 1;
- for (int i = 1; i < modes; ++i) csum[i] = counts[i] + 1 + csum[i - 1];
-
- for (int i = 0; i < modes; ++i) fprintf(logfile, "%d ", counts[i]);
- fprintf(logfile, "\n");
-
- int64_t sum = csum[modes - 1];
- const int64_t round_shift = sum >> 1;
- for (int i = 0; i < modes; ++i) {
- cdf[i] = (csum[i] * CDF_PROB_TOP + round_shift) / sum;
- cdf[i] = AOMMIN(cdf[i], CDF_PROB_TOP - (modes - 1 + i) * 4);
- cdf[i] = (i == 0) ? AOMMAX(cdf[i], 4) : AOMMAX(cdf[i], cdf[i - 1] + 4);
- }
-}
-
-static int parse_counts_for_cdf_opt(aom_count_type **ct_ptr,
- FILE *const probsfile, int tabs,
- int dim_of_cts, int *cts_each_dim) {
- if (dim_of_cts < 1) {
- fprintf(stderr, "The dimension of a counts vector should be at least 1!\n");
- return 1;
- }
- const int total_modes = cts_each_dim[0];
- if (dim_of_cts == 1) {
- assert(total_modes <= CDF_MAX_SIZE);
- aom_cdf_prob cdfs[CDF_MAX_SIZE];
- aom_count_type *counts1d = *ct_ptr;
-
- counts_to_cdf(counts1d, cdfs, total_modes);
- (*ct_ptr) += total_modes;
-
- if (tabs > 0) fprintf(probsfile, "%*c", tabs * SPACES_PER_TAB, ' ');
- fprintf(probsfile, "AOM_CDF%d(", total_modes);
- for (int k = 0; k < total_modes - 1; ++k) {
- fprintf(probsfile, "%d", cdfs[k]);
- if (k < total_modes - 2) fprintf(probsfile, ", ");
- }
- fprintf(probsfile, ")");
- } else {
- for (int k = 0; k < total_modes; ++k) {
- int tabs_next_level;
-
- if (dim_of_cts == 2)
- fprintf(probsfile, "%*c{ ", tabs * SPACES_PER_TAB, ' ');
- else
- fprintf(probsfile, "%*c{\n", tabs * SPACES_PER_TAB, ' ');
- tabs_next_level = dim_of_cts == 2 ? 0 : tabs + 1;
-
- if (parse_counts_for_cdf_opt(ct_ptr, probsfile, tabs_next_level,
- dim_of_cts - 1, cts_each_dim + 1)) {
- return 1;
- }
-
- if (dim_of_cts == 2) {
- if (k == total_modes - 1)
- fprintf(probsfile, " }\n");
- else
- fprintf(probsfile, " },\n");
- } else {
- if (k == total_modes - 1)
- fprintf(probsfile, "%*c}\n", tabs * SPACES_PER_TAB, ' ');
- else
- fprintf(probsfile, "%*c},\n", tabs * SPACES_PER_TAB, ' ');
- }
- }
- }
- return 0;
-}
-
-static void optimize_cdf_table(aom_count_type *counts, FILE *const probsfile,
- int dim_of_cts, int *cts_each_dim,
- char *prefix) {
- aom_count_type *ct_ptr = counts;
-
- fprintf(probsfile, "%s = {\n", prefix);
- fprintf(logfile, "%s\n", prefix);
- if (parse_counts_for_cdf_opt(&ct_ptr, probsfile, 1, dim_of_cts,
- cts_each_dim)) {
- fprintf(probsfile, "Optimizer failed!\n");
- }
- fprintf(probsfile, "};\n\n");
- fprintf(logfile, "============================\n");
-}
-
-static void optimize_uv_mode(aom_count_type *counts, FILE *const probsfile,
- int dim_of_cts, int *cts_each_dim, char *prefix) {
- aom_count_type *ct_ptr = counts;
-
- fprintf(probsfile, "%s = {\n", prefix);
- fprintf(probsfile, "%*c{\n", SPACES_PER_TAB, ' ');
- fprintf(logfile, "%s\n", prefix);
- cts_each_dim[2] = UV_INTRA_MODES - 1;
- for (int k = 0; k < cts_each_dim[1]; ++k) {
- fprintf(probsfile, "%*c{ ", 2 * SPACES_PER_TAB, ' ');
- parse_counts_for_cdf_opt(&ct_ptr, probsfile, 0, dim_of_cts - 2,
- cts_each_dim + 2);
- if (k + 1 == cts_each_dim[1]) {
- fprintf(probsfile, " }\n");
- } else {
- fprintf(probsfile, " },\n");
- }
- ++ct_ptr;
- }
- fprintf(probsfile, "%*c},\n", SPACES_PER_TAB, ' ');
- fprintf(probsfile, "%*c{\n", SPACES_PER_TAB, ' ');
- cts_each_dim[2] = UV_INTRA_MODES;
- parse_counts_for_cdf_opt(&ct_ptr, probsfile, 2, dim_of_cts - 1,
- cts_each_dim + 1);
- fprintf(probsfile, "%*c}\n", SPACES_PER_TAB, ' ');
- fprintf(probsfile, "};\n\n");
- fprintf(logfile, "============================\n");
-}
-
-static void optimize_cdf_table_var_modes_2d(aom_count_type *counts,
- FILE *const probsfile,
- int dim_of_cts, int *cts_each_dim,
- int *modes_each_ctx, char *prefix) {
- aom_count_type *ct_ptr = counts;
-
- assert(dim_of_cts == 2);
- (void)dim_of_cts;
-
- fprintf(probsfile, "%s = {\n", prefix);
- fprintf(logfile, "%s\n", prefix);
-
- for (int d0_idx = 0; d0_idx < cts_each_dim[0]; ++d0_idx) {
- int num_of_modes = modes_each_ctx[d0_idx];
-
- if (num_of_modes > 0) {
- fprintf(probsfile, "%*c{ ", SPACES_PER_TAB, ' ');
- parse_counts_for_cdf_opt(&ct_ptr, probsfile, 0, 1, &num_of_modes);
- ct_ptr += cts_each_dim[1] - num_of_modes;
- fprintf(probsfile, " },\n");
- } else {
- fprintf(probsfile, "%*c{ 0 },\n", SPACES_PER_TAB, ' ');
- fprintf(logfile, "dummy cdf, no need to optimize\n");
- ct_ptr += cts_each_dim[1];
- }
- }
- fprintf(probsfile, "};\n\n");
- fprintf(logfile, "============================\n");
-}
-
-static void optimize_cdf_table_var_modes_3d(aom_count_type *counts,
- FILE *const probsfile,
- int dim_of_cts, int *cts_each_dim,
- int *modes_each_ctx, char *prefix) {
- aom_count_type *ct_ptr = counts;
-
- assert(dim_of_cts == 3);
- (void)dim_of_cts;
-
- fprintf(probsfile, "%s = {\n", prefix);
- fprintf(logfile, "%s\n", prefix);
-
- for (int d0_idx = 0; d0_idx < cts_each_dim[0]; ++d0_idx) {
- fprintf(probsfile, "%*c{\n", SPACES_PER_TAB, ' ');
- for (int d1_idx = 0; d1_idx < cts_each_dim[1]; ++d1_idx) {
- int num_of_modes = modes_each_ctx[d0_idx];
-
- if (num_of_modes > 0) {
- fprintf(probsfile, "%*c{ ", 2 * SPACES_PER_TAB, ' ');
- parse_counts_for_cdf_opt(&ct_ptr, probsfile, 0, 1, &num_of_modes);
- ct_ptr += cts_each_dim[2] - num_of_modes;
- fprintf(probsfile, " },\n");
- } else {
- fprintf(probsfile, "%*c{ 0 },\n", 2 * SPACES_PER_TAB, ' ');
- fprintf(logfile, "dummy cdf, no need to optimize\n");
- ct_ptr += cts_each_dim[2];
- }
- }
- fprintf(probsfile, "%*c},\n", SPACES_PER_TAB, ' ');
- }
- fprintf(probsfile, "};\n\n");
- fprintf(logfile, "============================\n");
-}
-
-static void optimize_cdf_table_var_modes_4d(aom_count_type *counts,
- FILE *const probsfile,
- int dim_of_cts, int *cts_each_dim,
- int *modes_each_ctx, char *prefix) {
- aom_count_type *ct_ptr = counts;
-
- assert(dim_of_cts == 4);
- (void)dim_of_cts;
-
- fprintf(probsfile, "%s = {\n", prefix);
- fprintf(logfile, "%s\n", prefix);
-
- for (int d0_idx = 0; d0_idx < cts_each_dim[0]; ++d0_idx) {
- fprintf(probsfile, "%*c{\n", SPACES_PER_TAB, ' ');
- for (int d1_idx = 0; d1_idx < cts_each_dim[1]; ++d1_idx) {
- fprintf(probsfile, "%*c{\n", 2 * SPACES_PER_TAB, ' ');
- for (int d2_idx = 0; d2_idx < cts_each_dim[2]; ++d2_idx) {
- int num_of_modes = modes_each_ctx[d0_idx];
-
- if (num_of_modes > 0) {
- fprintf(probsfile, "%*c{ ", 3 * SPACES_PER_TAB, ' ');
- parse_counts_for_cdf_opt(&ct_ptr, probsfile, 0, 1, &num_of_modes);
- ct_ptr += cts_each_dim[3] - num_of_modes;
- fprintf(probsfile, " },\n");
- } else {
- fprintf(probsfile, "%*c{ 0 },\n", 3 * SPACES_PER_TAB, ' ');
- fprintf(logfile, "dummy cdf, no need to optimize\n");
- ct_ptr += cts_each_dim[3];
- }
- }
- fprintf(probsfile, "%*c},\n", 2 * SPACES_PER_TAB, ' ');
- }
- fprintf(probsfile, "%*c},\n", SPACES_PER_TAB, ' ');
- }
- fprintf(probsfile, "};\n\n");
- fprintf(logfile, "============================\n");
-}
-
-int main(int argc, const char **argv) {
- if (argc < 2) {
- fprintf(stderr, "Please specify the input stats file!\n");
- exit(EXIT_FAILURE);
- }
-
- FILE *const statsfile = fopen(argv[1], "rb");
- if (statsfile == NULL) {
- fprintf(stderr, "Failed to open input file!\n");
- exit(EXIT_FAILURE);
- }
-
- FRAME_COUNTS fc;
- const size_t bytes = fread(&fc, sizeof(FRAME_COUNTS), 1, statsfile);
- if (!bytes) return 1;
-
- FILE *const probsfile = fopen("optimized_probs.c", "w");
- if (probsfile == NULL) {
- fprintf(stderr,
- "Failed to create output file for optimized entropy tables!\n");
- exit(EXIT_FAILURE);
- }
-
- logfile = fopen("aom_entropy_optimizer_parsed_counts.log", "w");
- if (logfile == NULL) {
- fprintf(stderr, "Failed to create log file for parsed counts!\n");
- exit(EXIT_FAILURE);
- }
-
- int cts_each_dim[10];
-
- /* Intra mode (keyframe luma) */
- cts_each_dim[0] = KF_MODE_CONTEXTS;
- cts_each_dim[1] = KF_MODE_CONTEXTS;
- cts_each_dim[2] = INTRA_MODES;
- optimize_cdf_table(&fc.kf_y_mode[0][0][0], probsfile, 3, cts_each_dim,
- "const aom_cdf_prob\n"
- "default_kf_y_mode_cdf[KF_MODE_CONTEXTS][KF_MODE_CONTEXTS]"
- "[CDF_SIZE(INTRA_MODES)]");
-
- cts_each_dim[0] = DIRECTIONAL_MODES;
- cts_each_dim[1] = 2 * MAX_ANGLE_DELTA + 1;
- optimize_cdf_table(&fc.angle_delta[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob default_angle_delta_cdf"
- "[DIRECTIONAL_MODES][CDF_SIZE(2 * MAX_ANGLE_DELTA + 1)]");
-
- /* Intra mode (non-keyframe luma) */
- cts_each_dim[0] = BLOCK_SIZE_GROUPS;
- cts_each_dim[1] = INTRA_MODES;
- optimize_cdf_table(
- &fc.y_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_if_y_mode_cdf[BLOCK_SIZE_GROUPS][CDF_SIZE(INTRA_MODES)]");
-
- /* Intra mode (chroma) */
- cts_each_dim[0] = CFL_ALLOWED_TYPES;
- cts_each_dim[1] = INTRA_MODES;
- cts_each_dim[2] = UV_INTRA_MODES;
- optimize_uv_mode(&fc.uv_mode[0][0][0], probsfile, 3, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_uv_mode_cdf[CFL_ALLOWED_TYPES][INTRA_MODES]"
- "[CDF_SIZE(UV_INTRA_MODES)]");
-
- /* block partition */
- cts_each_dim[0] = PARTITION_CONTEXTS;
- cts_each_dim[1] = EXT_PARTITION_TYPES;
- int part_types_each_ctx[PARTITION_CONTEXTS] = {
- 4, 4, 4, 4, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 8, 8, 8, 8
- };
- optimize_cdf_table_var_modes_2d(
- &fc.partition[0][0], probsfile, 2, cts_each_dim, part_types_each_ctx,
- "static const aom_cdf_prob default_partition_cdf[PARTITION_CONTEXTS]"
- "[CDF_SIZE(EXT_PARTITION_TYPES)]");
-
- /* tx type */
- cts_each_dim[0] = EXT_TX_SETS_INTRA;
- cts_each_dim[1] = EXT_TX_SIZES;
- cts_each_dim[2] = INTRA_MODES;
- cts_each_dim[3] = TX_TYPES;
- int intra_ext_tx_types_each_ctx[EXT_TX_SETS_INTRA] = { 0, 7, 5 };
- optimize_cdf_table_var_modes_4d(
- &fc.intra_ext_tx[0][0][0][0], probsfile, 4, cts_each_dim,
- intra_ext_tx_types_each_ctx,
- "static const aom_cdf_prob default_intra_ext_tx_cdf[EXT_TX_SETS_INTRA]"
- "[EXT_TX_SIZES][INTRA_MODES][CDF_SIZE(TX_TYPES)]");
-
- cts_each_dim[0] = EXT_TX_SETS_INTER;
- cts_each_dim[1] = EXT_TX_SIZES;
- cts_each_dim[2] = TX_TYPES;
- int inter_ext_tx_types_each_ctx[EXT_TX_SETS_INTER] = { 0, 16, 12, 2 };
- optimize_cdf_table_var_modes_3d(
- &fc.inter_ext_tx[0][0][0], probsfile, 3, cts_each_dim,
- inter_ext_tx_types_each_ctx,
- "static const aom_cdf_prob default_inter_ext_tx_cdf[EXT_TX_SETS_INTER]"
- "[EXT_TX_SIZES][CDF_SIZE(TX_TYPES)]");
-
- /* Chroma from Luma */
- cts_each_dim[0] = CFL_JOINT_SIGNS;
- optimize_cdf_table(&fc.cfl_sign[0], probsfile, 1, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_cfl_sign_cdf[CDF_SIZE(CFL_JOINT_SIGNS)]");
- cts_each_dim[0] = CFL_ALPHA_CONTEXTS;
- cts_each_dim[1] = CFL_ALPHABET_SIZE;
- optimize_cdf_table(&fc.cfl_alpha[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_cfl_alpha_cdf[CFL_ALPHA_CONTEXTS]"
- "[CDF_SIZE(CFL_ALPHABET_SIZE)]");
-
- /* Interpolation filter */
- cts_each_dim[0] = SWITCHABLE_FILTER_CONTEXTS;
- cts_each_dim[1] = SWITCHABLE_FILTERS;
- optimize_cdf_table(&fc.switchable_interp[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_switchable_interp_cdf[SWITCHABLE_FILTER_CONTEXTS]"
- "[CDF_SIZE(SWITCHABLE_FILTERS)]");
-
- /* Motion vector referencing */
- cts_each_dim[0] = NEWMV_MODE_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.newmv_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_newmv_cdf[NEWMV_MODE_CONTEXTS][CDF_SIZE(2)]");
-
- cts_each_dim[0] = GLOBALMV_MODE_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.zeromv_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_zeromv_cdf[GLOBALMV_MODE_CONTEXTS][CDF_SIZE(2)]");
-
- cts_each_dim[0] = REFMV_MODE_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.refmv_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_refmv_cdf[REFMV_MODE_CONTEXTS][CDF_SIZE(2)]");
-
- cts_each_dim[0] = DRL_MODE_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.drl_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_drl_cdf[DRL_MODE_CONTEXTS][CDF_SIZE(2)]");
-
- /* ext_inter experiment */
- /* New compound mode */
- cts_each_dim[0] = INTER_MODE_CONTEXTS;
- cts_each_dim[1] = INTER_COMPOUND_MODES;
- optimize_cdf_table(&fc.inter_compound_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_inter_compound_mode_cdf[INTER_MODE_CONTEXTS][CDF_"
- "SIZE(INTER_COMPOUND_MODES)]");
-
- /* Interintra */
- cts_each_dim[0] = BLOCK_SIZE_GROUPS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.interintra[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_interintra_cdf[BLOCK_SIZE_GROUPS][CDF_SIZE(2)]");
-
- cts_each_dim[0] = BLOCK_SIZE_GROUPS;
- cts_each_dim[1] = INTERINTRA_MODES;
- optimize_cdf_table(&fc.interintra_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_interintra_mode_cdf[BLOCK_SIZE_GROUPS][CDF_SIZE("
- "INTERINTRA_MODES)]");
-
- cts_each_dim[0] = BLOCK_SIZES_ALL;
- cts_each_dim[1] = 2;
- optimize_cdf_table(
- &fc.wedge_interintra[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_wedge_interintra_cdf[BLOCK_SIZES_ALL][CDF_SIZE(2)]");
-
- /* Compound type */
- cts_each_dim[0] = BLOCK_SIZES_ALL;
- cts_each_dim[1] = COMPOUND_TYPES - 1;
- optimize_cdf_table(&fc.compound_type[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob default_compound_type_cdf"
- "[BLOCK_SIZES_ALL][CDF_SIZE(COMPOUND_TYPES - 1)]");
-
- cts_each_dim[0] = BLOCK_SIZES_ALL;
- cts_each_dim[1] = 16;
- optimize_cdf_table(&fc.wedge_idx[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_wedge_idx_cdf[BLOCK_SIZES_ALL][CDF_SIZE(16)]");
-
- /* motion_var and warped_motion experiments */
- cts_each_dim[0] = BLOCK_SIZES_ALL;
- cts_each_dim[1] = MOTION_MODES;
- optimize_cdf_table(
- &fc.motion_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_motion_mode_cdf[BLOCK_SIZES_ALL][CDF_SIZE(MOTION_MODES)]");
- cts_each_dim[0] = BLOCK_SIZES_ALL;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.obmc[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_obmc_cdf[BLOCK_SIZES_ALL][CDF_SIZE(2)]");
-
- /* Intra/inter flag */
- cts_each_dim[0] = INTRA_INTER_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(
- &fc.intra_inter[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_intra_inter_cdf[INTRA_INTER_CONTEXTS][CDF_SIZE(2)]");
-
- /* Single/comp ref flag */
- cts_each_dim[0] = COMP_INTER_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(
- &fc.comp_inter[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_comp_inter_cdf[COMP_INTER_CONTEXTS][CDF_SIZE(2)]");
-
- /* ext_comp_refs experiment */
- cts_each_dim[0] = COMP_REF_TYPE_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(
- &fc.comp_ref_type[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_comp_ref_type_cdf[COMP_REF_TYPE_CONTEXTS][CDF_SIZE(2)]");
-
- cts_each_dim[0] = UNI_COMP_REF_CONTEXTS;
- cts_each_dim[1] = UNIDIR_COMP_REFS - 1;
- cts_each_dim[2] = 2;
- optimize_cdf_table(&fc.uni_comp_ref[0][0][0], probsfile, 3, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_uni_comp_ref_cdf[UNI_COMP_REF_CONTEXTS][UNIDIR_"
- "COMP_REFS - 1][CDF_SIZE(2)]");
-
- /* Reference frame (single ref) */
- cts_each_dim[0] = REF_CONTEXTS;
- cts_each_dim[1] = SINGLE_REFS - 1;
- cts_each_dim[2] = 2;
- optimize_cdf_table(
- &fc.single_ref[0][0][0], probsfile, 3, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_single_ref_cdf[REF_CONTEXTS][SINGLE_REFS - 1][CDF_SIZE(2)]");
-
- /* ext_refs experiment */
- cts_each_dim[0] = REF_CONTEXTS;
- cts_each_dim[1] = FWD_REFS - 1;
- cts_each_dim[2] = 2;
- optimize_cdf_table(
- &fc.comp_ref[0][0][0], probsfile, 3, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_comp_ref_cdf[REF_CONTEXTS][FWD_REFS - 1][CDF_SIZE(2)]");
-
- cts_each_dim[0] = REF_CONTEXTS;
- cts_each_dim[1] = BWD_REFS - 1;
- cts_each_dim[2] = 2;
- optimize_cdf_table(
- &fc.comp_bwdref[0][0][0], probsfile, 3, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_comp_bwdref_cdf[REF_CONTEXTS][BWD_REFS - 1][CDF_SIZE(2)]");
-
- /* palette */
- cts_each_dim[0] = PALATTE_BSIZE_CTXS;
- cts_each_dim[1] = PALETTE_SIZES;
- optimize_cdf_table(&fc.palette_y_size[0][0], probsfile, 2, cts_each_dim,
- "const aom_cdf_prob default_palette_y_size_cdf"
- "[PALATTE_BSIZE_CTXS][CDF_SIZE(PALETTE_SIZES)]");
-
- cts_each_dim[0] = PALATTE_BSIZE_CTXS;
- cts_each_dim[1] = PALETTE_SIZES;
- optimize_cdf_table(&fc.palette_uv_size[0][0], probsfile, 2, cts_each_dim,
- "const aom_cdf_prob default_palette_uv_size_cdf"
- "[PALATTE_BSIZE_CTXS][CDF_SIZE(PALETTE_SIZES)]");
-
- cts_each_dim[0] = PALATTE_BSIZE_CTXS;
- cts_each_dim[1] = PALETTE_Y_MODE_CONTEXTS;
- cts_each_dim[2] = 2;
- optimize_cdf_table(&fc.palette_y_mode[0][0][0], probsfile, 3, cts_each_dim,
- "const aom_cdf_prob default_palette_y_mode_cdf"
- "[PALATTE_BSIZE_CTXS][PALETTE_Y_MODE_CONTEXTS]"
- "[CDF_SIZE(2)]");
-
- cts_each_dim[0] = PALETTE_UV_MODE_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.palette_uv_mode[0][0], probsfile, 2, cts_each_dim,
- "const aom_cdf_prob default_palette_uv_mode_cdf"
- "[PALETTE_UV_MODE_CONTEXTS][CDF_SIZE(2)]");
-
- cts_each_dim[0] = PALETTE_SIZES;
- cts_each_dim[1] = PALETTE_COLOR_INDEX_CONTEXTS;
- cts_each_dim[2] = PALETTE_COLORS;
- int palette_color_indexes_each_ctx[PALETTE_SIZES] = { 2, 3, 4, 5, 6, 7, 8 };
- optimize_cdf_table_var_modes_3d(
- &fc.palette_y_color_index[0][0][0], probsfile, 3, cts_each_dim,
- palette_color_indexes_each_ctx,
- "const aom_cdf_prob default_palette_y_color_index_cdf[PALETTE_SIZES]"
- "[PALETTE_COLOR_INDEX_CONTEXTS][CDF_SIZE(PALETTE_COLORS)]");
-
- cts_each_dim[0] = PALETTE_SIZES;
- cts_each_dim[1] = PALETTE_COLOR_INDEX_CONTEXTS;
- cts_each_dim[2] = PALETTE_COLORS;
- optimize_cdf_table_var_modes_3d(
- &fc.palette_uv_color_index[0][0][0], probsfile, 3, cts_each_dim,
- palette_color_indexes_each_ctx,
- "const aom_cdf_prob default_palette_uv_color_index_cdf[PALETTE_SIZES]"
- "[PALETTE_COLOR_INDEX_CONTEXTS][CDF_SIZE(PALETTE_COLORS)]");
-
- /* Transform size */
- cts_each_dim[0] = TXFM_PARTITION_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(
- &fc.txfm_partition[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob\n"
- "default_txfm_partition_cdf[TXFM_PARTITION_CONTEXTS][CDF_SIZE(2)]");
-
- /* Skip flag */
- cts_each_dim[0] = SKIP_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.skip[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_skip_cdfs[SKIP_CONTEXTS][CDF_SIZE(2)]");
-
- /* Skip mode flag */
- cts_each_dim[0] = SKIP_MODE_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.skip_mode[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_skip_mode_cdfs[SKIP_MODE_CONTEXTS][CDF_SIZE(2)]");
-
- /* joint compound flag */
- cts_each_dim[0] = COMP_INDEX_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.compound_index[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob default_compound_idx_cdfs"
- "[COMP_INDEX_CONTEXTS][CDF_SIZE(2)]");
-
- cts_each_dim[0] = COMP_GROUP_IDX_CONTEXTS;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.comp_group_idx[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob default_comp_group_idx_cdfs"
- "[COMP_GROUP_IDX_CONTEXTS][CDF_SIZE(2)]");
-
- /* intrabc */
- cts_each_dim[0] = 2;
- optimize_cdf_table(
- &fc.intrabc[0], probsfile, 1, cts_each_dim,
- "static const aom_cdf_prob default_intrabc_cdf[CDF_SIZE(2)]");
-
- /* filter_intra experiment */
- cts_each_dim[0] = FILTER_INTRA_MODES;
- optimize_cdf_table(
- &fc.filter_intra_mode[0], probsfile, 1, cts_each_dim,
- "static const aom_cdf_prob "
- "default_filter_intra_mode_cdf[CDF_SIZE(FILTER_INTRA_MODES)]");
-
- cts_each_dim[0] = BLOCK_SIZES_ALL;
- cts_each_dim[1] = 2;
- optimize_cdf_table(&fc.filter_intra[0][0], probsfile, 2, cts_each_dim,
- "static const aom_cdf_prob "
- "default_filter_intra_cdfs[BLOCK_SIZES_ALL][CDF_SIZE(2)]");
-
- /* restoration type */
- cts_each_dim[0] = RESTORE_SWITCHABLE_TYPES;
- optimize_cdf_table(&fc.switchable_restore[0], probsfile, 1, cts_each_dim,
- "static const aom_cdf_prob default_switchable_restore_cdf"
- "[CDF_SIZE(RESTORE_SWITCHABLE_TYPES)]");
-
- cts_each_dim[0] = 2;
- optimize_cdf_table(&fc.wiener_restore[0], probsfile, 1, cts_each_dim,
- "static const aom_cdf_prob default_wiener_restore_cdf"
- "[CDF_SIZE(2)]");
-
- cts_each_dim[0] = 2;
- optimize_cdf_table(&fc.sgrproj_restore[0], probsfile, 1, cts_each_dim,
- "static const aom_cdf_prob default_sgrproj_restore_cdf"
- "[CDF_SIZE(2)]");
-
- /* intra tx size */
- cts_each_dim[0] = MAX_TX_CATS;
- cts_each_dim[1] = TX_SIZE_CONTEXTS;
- cts_each_dim[2] = MAX_TX_DEPTH + 1;
- int intra_tx_sizes_each_ctx[MAX_TX_CATS] = { 2, 3, 3, 3 };
- optimize_cdf_table_var_modes_3d(
- &fc.intra_tx_size[0][0][0], probsfile, 3, cts_each_dim,
- intra_tx_sizes_each_ctx,
- "static const aom_cdf_prob default_tx_size_cdf"
- "[MAX_TX_CATS][TX_SIZE_CONTEXTS][CDF_SIZE(MAX_TX_DEPTH + 1)]");
-
- /* transform coding */
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = TX_SIZES;
- cts_each_dim[2] = TXB_SKIP_CONTEXTS;
- cts_each_dim[3] = 2;
- optimize_cdf_table(&fc.txb_skip[0][0][0][0], probsfile, 4, cts_each_dim,
- "static const aom_cdf_prob "
- "av1_default_txb_skip_cdfs[TOKEN_CDF_Q_CTXS][TX_SIZES]"
- "[TXB_SKIP_CONTEXTS][CDF_SIZE(2)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = TX_SIZES;
- cts_each_dim[2] = PLANE_TYPES;
- cts_each_dim[3] = EOB_COEF_CONTEXTS;
- cts_each_dim[4] = 2;
- optimize_cdf_table(
- &fc.eob_extra[0][0][0][0][0], probsfile, 5, cts_each_dim,
- "static const aom_cdf_prob av1_default_eob_extra_cdfs "
- "[TOKEN_CDF_Q_CTXS][TX_SIZES][PLANE_TYPES][EOB_COEF_CONTEXTS]"
- "[CDF_SIZE(2)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = PLANE_TYPES;
- cts_each_dim[2] = 2;
- cts_each_dim[3] = 5;
- optimize_cdf_table(&fc.eob_multi16[0][0][0][0], probsfile, 4, cts_each_dim,
- "static const aom_cdf_prob av1_default_eob_multi16_cdfs"
- "[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][CDF_SIZE(5)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = PLANE_TYPES;
- cts_each_dim[2] = 2;
- cts_each_dim[3] = 6;
- optimize_cdf_table(&fc.eob_multi32[0][0][0][0], probsfile, 4, cts_each_dim,
- "static const aom_cdf_prob av1_default_eob_multi32_cdfs"
- "[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][CDF_SIZE(6)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = PLANE_TYPES;
- cts_each_dim[2] = 2;
- cts_each_dim[3] = 7;
- optimize_cdf_table(&fc.eob_multi64[0][0][0][0], probsfile, 4, cts_each_dim,
- "static const aom_cdf_prob av1_default_eob_multi64_cdfs"
- "[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][CDF_SIZE(7)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = PLANE_TYPES;
- cts_each_dim[2] = 2;
- cts_each_dim[3] = 8;
- optimize_cdf_table(&fc.eob_multi128[0][0][0][0], probsfile, 4, cts_each_dim,
- "static const aom_cdf_prob av1_default_eob_multi128_cdfs"
- "[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][CDF_SIZE(8)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = PLANE_TYPES;
- cts_each_dim[2] = 2;
- cts_each_dim[3] = 9;
- optimize_cdf_table(&fc.eob_multi256[0][0][0][0], probsfile, 4, cts_each_dim,
- "static const aom_cdf_prob av1_default_eob_multi256_cdfs"
- "[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][CDF_SIZE(9)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = PLANE_TYPES;
- cts_each_dim[2] = 2;
- cts_each_dim[3] = 10;
- optimize_cdf_table(&fc.eob_multi512[0][0][0][0], probsfile, 4, cts_each_dim,
- "static const aom_cdf_prob av1_default_eob_multi512_cdfs"
- "[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][CDF_SIZE(10)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = PLANE_TYPES;
- cts_each_dim[2] = 2;
- cts_each_dim[3] = 11;
- optimize_cdf_table(&fc.eob_multi1024[0][0][0][0], probsfile, 4, cts_each_dim,
- "static const aom_cdf_prob av1_default_eob_multi1024_cdfs"
- "[TOKEN_CDF_Q_CTXS][PLANE_TYPES][2][CDF_SIZE(11)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = TX_SIZES;
- cts_each_dim[2] = PLANE_TYPES;
- cts_each_dim[3] = LEVEL_CONTEXTS;
- cts_each_dim[4] = BR_CDF_SIZE;
- optimize_cdf_table(&fc.coeff_lps_multi[0][0][0][0][0], probsfile, 5,
- cts_each_dim,
- "static const aom_cdf_prob "
- "av1_default_coeff_lps_multi_cdfs[TOKEN_CDF_Q_CTXS]"
- "[TX_SIZES][PLANE_TYPES][LEVEL_CONTEXTS]"
- "[CDF_SIZE(BR_CDF_SIZE)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = TX_SIZES;
- cts_each_dim[2] = PLANE_TYPES;
- cts_each_dim[3] = SIG_COEF_CONTEXTS;
- cts_each_dim[4] = NUM_BASE_LEVELS + 2;
- optimize_cdf_table(
- &fc.coeff_base_multi[0][0][0][0][0], probsfile, 5, cts_each_dim,
- "static const aom_cdf_prob av1_default_coeff_base_multi_cdfs"
- "[TOKEN_CDF_Q_CTXS][TX_SIZES][PLANE_TYPES][SIG_COEF_CONTEXTS]"
- "[CDF_SIZE(NUM_BASE_LEVELS + 2)]");
-
- cts_each_dim[0] = TOKEN_CDF_Q_CTXS;
- cts_each_dim[1] = TX_SIZES;
- cts_each_dim[2] = PLANE_TYPES;
- cts_each_dim[3] = SIG_COEF_CONTEXTS_EOB;
- cts_each_dim[4] = NUM_BASE_LEVELS + 1;
- optimize_cdf_table(
- &fc.coeff_base_eob_multi[0][0][0][0][0], probsfile, 5, cts_each_dim,
- "static const aom_cdf_prob av1_default_coeff_base_eob_multi_cdfs"
- "[TOKEN_CDF_Q_CTXS][TX_SIZES][PLANE_TYPES][SIG_COEF_CONTEXTS_EOB]"
- "[CDF_SIZE(NUM_BASE_LEVELS + 1)]");
-
- fclose(statsfile);
- fclose(logfile);
- fclose(probsfile);
-
- return 0;
-}
diff --git a/third_party/aom/tools/cpplint.py b/third_party/aom/tools/cpplint.py
deleted file mode 100755
index 25fbef73d..000000000
--- a/third_party/aom/tools/cpplint.py
+++ /dev/null
@@ -1,4756 +0,0 @@
-#!/usr/bin/python
-#
-# Copyright (c) 2009 Google Inc. All rights reserved.
-#
-# Redistribution and use in source and binary forms, with or without
-# modification, are permitted provided that the following conditions are
-# met:
-#
-# * Redistributions of source code must retain the above copyright
-# notice, this list of conditions and the following disclaimer.
-# * Redistributions in binary form must reproduce the above
-# copyright notice, this list of conditions and the following disclaimer
-# in the documentation and/or other materials provided with the
-# distribution.
-# * Neither the name of Google Inc. nor the names of its
-# contributors may be used to endorse or promote products derived from
-# this software without specific prior written permission.
-#
-# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
-# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
-# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
-# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
-# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
-# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
-# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-
-"""Does google-lint on c++ files.
-
-The goal of this script is to identify places in the code that *may*
-be in non-compliance with google style. It does not attempt to fix
-up these problems -- the point is to educate. It does also not
-attempt to find all problems, or to ensure that everything it does
-find is legitimately a problem.
-
-In particular, we can get very confused by /* and // inside strings!
-We do a small hack, which is to ignore //'s with "'s after them on the
-same line, but it is far from perfect (in either direction).
-"""
-
-import codecs
-import copy
-import getopt
-import math # for log
-import os
-import re
-import sre_compile
-import string
-import sys
-import unicodedata
-
-
-_USAGE = """
-Syntax: cpplint.py [--verbose=#] [--output=vs7] [--filter=-x,+y,...]
- [--counting=total|toplevel|detailed] [--root=subdir]
- [--linelength=digits]
- <file> [file] ...
-
- The style guidelines this tries to follow are those in
- http://google-styleguide.googlecode.com/svn/trunk/cppguide.xml
-
- Every problem is given a confidence score from 1-5, with 5 meaning we are
- certain of the problem, and 1 meaning it could be a legitimate construct.
- This will miss some errors, and is not a substitute for a code review.
-
- To suppress false-positive errors of a certain category, add a
- 'NOLINT(category)' comment to the line. NOLINT or NOLINT(*)
- suppresses errors of all categories on that line.
-
- The files passed in will be linted; at least one file must be provided.
- Default linted extensions are .cc, .cpp, .cu, .cuh and .h. Change the
- extensions with the --extensions flag.
-
- Flags:
-
- output=vs7
- By default, the output is formatted to ease emacs parsing. Visual Studio
- compatible output (vs7) may also be used. Other formats are unsupported.
-
- verbose=#
- Specify a number 0-5 to restrict errors to certain verbosity levels.
-
- filter=-x,+y,...
- Specify a comma-separated list of category-filters to apply: only
- error messages whose category names pass the filters will be printed.
- (Category names are printed with the message and look like
- "[whitespace/indent]".) Filters are evaluated left to right.
- "-FOO" and "FOO" means "do not print categories that start with FOO".
- "+FOO" means "do print categories that start with FOO".
-
- Examples: --filter=-whitespace,+whitespace/braces
- --filter=whitespace,runtime/printf,+runtime/printf_format
- --filter=-,+build/include_what_you_use
-
- To see a list of all the categories used in cpplint, pass no arg:
- --filter=
-
- counting=total|toplevel|detailed
- The total number of errors found is always printed. If
- 'toplevel' is provided, then the count of errors in each of
- the top-level categories like 'build' and 'whitespace' will
- also be printed. If 'detailed' is provided, then a count
- is provided for each category like 'build/class'.
-
- root=subdir
- The root directory used for deriving header guard CPP variable.
- By default, the header guard CPP variable is calculated as the relative
- path to the directory that contains .git, .hg, or .svn. When this flag
- is specified, the relative path is calculated from the specified
- directory. If the specified directory does not exist, this flag is
- ignored.
-
- Examples:
- Assuing that src/.git exists, the header guard CPP variables for
- src/chrome/browser/ui/browser.h are:
-
- No flag => CHROME_BROWSER_UI_BROWSER_H_
- --root=chrome => BROWSER_UI_BROWSER_H_
- --root=chrome/browser => UI_BROWSER_H_
-
- linelength=digits
- This is the allowed line length for the project. The default value is
- 80 characters.
-
- Examples:
- --linelength=120
-
- extensions=extension,extension,...
- The allowed file extensions that cpplint will check
-
- Examples:
- --extensions=hpp,cpp
-"""
-
-# We categorize each error message we print. Here are the categories.
-# We want an explicit list so we can list them all in cpplint --filter=.
-# If you add a new error message with a new category, add it to the list
-# here! cpplint_unittest.py should tell you if you forget to do this.
-_ERROR_CATEGORIES = [
- 'build/class',
- 'build/deprecated',
- 'build/endif_comment',
- 'build/explicit_make_pair',
- 'build/forward_decl',
- 'build/header_guard',
- 'build/include',
- 'build/include_alpha',
- 'build/include_order',
- 'build/include_what_you_use',
- 'build/namespaces',
- 'build/printf_format',
- 'build/storage_class',
- 'legal/copyright',
- 'readability/alt_tokens',
- 'readability/braces',
- 'readability/casting',
- 'readability/check',
- 'readability/constructors',
- 'readability/fn_size',
- 'readability/function',
- 'readability/multiline_comment',
- 'readability/multiline_string',
- 'readability/namespace',
- 'readability/nolint',
- 'readability/nul',
- 'readability/streams',
- 'readability/todo',
- 'readability/utf8',
- 'runtime/arrays',
- 'runtime/casting',
- 'runtime/explicit',
- 'runtime/int',
- 'runtime/init',
- 'runtime/invalid_increment',
- 'runtime/member_string_references',
- 'runtime/memset',
- 'runtime/operator',
- 'runtime/printf',
- 'runtime/printf_format',
- 'runtime/references',
- 'runtime/sizeof',
- 'runtime/string',
- 'runtime/threadsafe_fn',
- 'runtime/vlog',
- 'whitespace/blank_line',
- 'whitespace/braces',
- 'whitespace/comma',
- 'whitespace/comments',
- 'whitespace/empty_conditional_body',
- 'whitespace/empty_loop_body',
- 'whitespace/end_of_line',
- 'whitespace/ending_newline',
- 'whitespace/forcolon',
- 'whitespace/indent',
- 'whitespace/line_length',
- 'whitespace/newline',
- 'whitespace/operators',
- 'whitespace/parens',
- 'whitespace/semicolon',
- 'whitespace/tab',
- 'whitespace/todo'
- ]
-
-# The default state of the category filter. This is overrided by the --filter=
-# flag. By default all errors are on, so only add here categories that should be
-# off by default (i.e., categories that must be enabled by the --filter= flags).
-# All entries here should start with a '-' or '+', as in the --filter= flag.
-_DEFAULT_FILTERS = ['-build/include_alpha']
-
-# We used to check for high-bit characters, but after much discussion we
-# decided those were OK, as long as they were in UTF-8 and didn't represent
-# hard-coded international strings, which belong in a separate i18n file.
-
-
-# C++ headers
-_CPP_HEADERS = frozenset([
- # Legacy
- 'algobase.h',
- 'algo.h',
- 'alloc.h',
- 'builtinbuf.h',
- 'bvector.h',
- 'complex.h',
- 'defalloc.h',
- 'deque.h',
- 'editbuf.h',
- 'fstream.h',
- 'function.h',
- 'hash_map',
- 'hash_map.h',
- 'hash_set',
- 'hash_set.h',
- 'hashtable.h',
- 'heap.h',
- 'indstream.h',
- 'iomanip.h',
- 'iostream.h',
- 'istream.h',
- 'iterator.h',
- 'list.h',
- 'map.h',
- 'multimap.h',
- 'multiset.h',
- 'ostream.h',
- 'pair.h',
- 'parsestream.h',
- 'pfstream.h',
- 'procbuf.h',
- 'pthread_alloc',
- 'pthread_alloc.h',
- 'rope',
- 'rope.h',
- 'ropeimpl.h',
- 'set.h',
- 'slist',
- 'slist.h',
- 'stack.h',
- 'stdiostream.h',
- 'stl_alloc.h',
- 'stl_relops.h',
- 'streambuf.h',
- 'stream.h',
- 'strfile.h',
- 'strstream.h',
- 'tempbuf.h',
- 'tree.h',
- 'type_traits.h',
- 'vector.h',
- # 17.6.1.2 C++ library headers
- 'algorithm',
- 'array',
- 'atomic',
- 'bitset',
- 'chrono',
- 'codecvt',
- 'complex',
- 'condition_variable',
- 'deque',
- 'exception',
- 'forward_list',
- 'fstream',
- 'functional',
- 'future',
- 'initializer_list',
- 'iomanip',
- 'ios',
- 'iosfwd',
- 'iostream',
- 'istream',
- 'iterator',
- 'limits',
- 'list',
- 'locale',
- 'map',
- 'memory',
- 'mutex',
- 'new',
- 'numeric',
- 'ostream',
- 'queue',
- 'random',
- 'ratio',
- 'regex',
- 'set',
- 'sstream',
- 'stack',
- 'stdexcept',
- 'streambuf',
- 'string',
- 'strstream',
- 'system_error',
- 'thread',
- 'tuple',
- 'typeindex',
- 'typeinfo',
- 'type_traits',
- 'unordered_map',
- 'unordered_set',
- 'utility',
- 'valarray',
- 'vector',
- # 17.6.1.2 C++ headers for C library facilities
- 'cassert',
- 'ccomplex',
- 'cctype',
- 'cerrno',
- 'cfenv',
- 'cfloat',
- 'cinttypes',
- 'ciso646',
- 'climits',
- 'clocale',
- 'cmath',
- 'csetjmp',
- 'csignal',
- 'cstdalign',
- 'cstdarg',
- 'cstdbool',
- 'cstddef',
- 'cstdint',
- 'cstdio',
- 'cstdlib',
- 'cstring',
- 'ctgmath',
- 'ctime',
- 'cuchar',
- 'cwchar',
- 'cwctype',
- ])
-
-# Assertion macros. These are defined in base/logging.h and
-# testing/base/gunit.h. Note that the _M versions need to come first
-# for substring matching to work.
-_CHECK_MACROS = [
- 'DCHECK', 'CHECK',
- 'EXPECT_TRUE_M', 'EXPECT_TRUE',
- 'ASSERT_TRUE_M', 'ASSERT_TRUE',
- 'EXPECT_FALSE_M', 'EXPECT_FALSE',
- 'ASSERT_FALSE_M', 'ASSERT_FALSE',
- ]
-
-# Replacement macros for CHECK/DCHECK/EXPECT_TRUE/EXPECT_FALSE
-_CHECK_REPLACEMENT = dict([(m, {}) for m in _CHECK_MACROS])
-
-for op, replacement in [('==', 'EQ'), ('!=', 'NE'),
- ('>=', 'GE'), ('>', 'GT'),
- ('<=', 'LE'), ('<', 'LT')]:
- _CHECK_REPLACEMENT['DCHECK'][op] = 'DCHECK_%s' % replacement
- _CHECK_REPLACEMENT['CHECK'][op] = 'CHECK_%s' % replacement
- _CHECK_REPLACEMENT['EXPECT_TRUE'][op] = 'EXPECT_%s' % replacement
- _CHECK_REPLACEMENT['ASSERT_TRUE'][op] = 'ASSERT_%s' % replacement
- _CHECK_REPLACEMENT['EXPECT_TRUE_M'][op] = 'EXPECT_%s_M' % replacement
- _CHECK_REPLACEMENT['ASSERT_TRUE_M'][op] = 'ASSERT_%s_M' % replacement
-
-for op, inv_replacement in [('==', 'NE'), ('!=', 'EQ'),
- ('>=', 'LT'), ('>', 'LE'),
- ('<=', 'GT'), ('<', 'GE')]:
- _CHECK_REPLACEMENT['EXPECT_FALSE'][op] = 'EXPECT_%s' % inv_replacement
- _CHECK_REPLACEMENT['ASSERT_FALSE'][op] = 'ASSERT_%s' % inv_replacement
- _CHECK_REPLACEMENT['EXPECT_FALSE_M'][op] = 'EXPECT_%s_M' % inv_replacement
- _CHECK_REPLACEMENT['ASSERT_FALSE_M'][op] = 'ASSERT_%s_M' % inv_replacement
-
-# Alternative tokens and their replacements. For full list, see section 2.5
-# Alternative tokens [lex.digraph] in the C++ standard.
-#
-# Digraphs (such as '%:') are not included here since it's a mess to
-# match those on a word boundary.
-_ALT_TOKEN_REPLACEMENT = {
- 'and': '&&',
- 'bitor': '|',
- 'or': '||',
- 'xor': '^',
- 'compl': '~',
- 'bitand': '&',
- 'and_eq': '&=',
- 'or_eq': '|=',
- 'xor_eq': '^=',
- 'not': '!',
- 'not_eq': '!='
- }
-
-# Compile regular expression that matches all the above keywords. The "[ =()]"
-# bit is meant to avoid matching these keywords outside of boolean expressions.
-#
-# False positives include C-style multi-line comments and multi-line strings
-# but those have always been troublesome for cpplint.
-_ALT_TOKEN_REPLACEMENT_PATTERN = re.compile(
- r'[ =()](' + ('|'.join(_ALT_TOKEN_REPLACEMENT.keys())) + r')(?=[ (]|$)')
-
-
-# These constants define types of headers for use with
-# _IncludeState.CheckNextIncludeOrder().
-_C_SYS_HEADER = 1
-_CPP_SYS_HEADER = 2
-_LIKELY_MY_HEADER = 3
-_POSSIBLE_MY_HEADER = 4
-_OTHER_HEADER = 5
-
-# These constants define the current inline assembly state
-_NO_ASM = 0 # Outside of inline assembly block
-_INSIDE_ASM = 1 # Inside inline assembly block
-_END_ASM = 2 # Last line of inline assembly block
-_BLOCK_ASM = 3 # The whole block is an inline assembly block
-
-# Match start of assembly blocks
-_MATCH_ASM = re.compile(r'^\s*(?:asm|_asm|__asm|__asm__)'
- r'(?:\s+(volatile|__volatile__))?'
- r'\s*[{(]')
-
-
-_regexp_compile_cache = {}
-
-# Finds occurrences of NOLINT or NOLINT(...).
-_RE_SUPPRESSION = re.compile(r'\bNOLINT\b(\([^)]*\))?')
-
-# {str, set(int)}: a map from error categories to sets of linenumbers
-# on which those errors are expected and should be suppressed.
-_error_suppressions = {}
-
-# The root directory used for deriving header guard CPP variable.
-# This is set by --root flag.
-_root = None
-
-# The allowed line length of files.
-# This is set by --linelength flag.
-_line_length = 80
-
-# The allowed extensions for file names
-# This is set by --extensions flag.
-_valid_extensions = set(['cc', 'h', 'cpp', 'cu', 'cuh'])
-
-def ParseNolintSuppressions(filename, raw_line, linenum, error):
- """Updates the global list of error-suppressions.
-
- Parses any NOLINT comments on the current line, updating the global
- error_suppressions store. Reports an error if the NOLINT comment
- was malformed.
-
- Args:
- filename: str, the name of the input file.
- raw_line: str, the line of input text, with comments.
- linenum: int, the number of the current line.
- error: function, an error handler.
- """
- # FIXME(adonovan): "NOLINT(" is misparsed as NOLINT(*).
- matched = _RE_SUPPRESSION.search(raw_line)
- if matched:
- category = matched.group(1)
- if category in (None, '(*)'): # => "suppress all"
- _error_suppressions.setdefault(None, set()).add(linenum)
- else:
- if category.startswith('(') and category.endswith(')'):
- category = category[1:-1]
- if category in _ERROR_CATEGORIES:
- _error_suppressions.setdefault(category, set()).add(linenum)
- else:
- error(filename, linenum, 'readability/nolint', 5,
- 'Unknown NOLINT error category: %s' % category)
-
-
-def ResetNolintSuppressions():
- "Resets the set of NOLINT suppressions to empty."
- _error_suppressions.clear()
-
-
-def IsErrorSuppressedByNolint(category, linenum):
- """Returns true if the specified error category is suppressed on this line.
-
- Consults the global error_suppressions map populated by
- ParseNolintSuppressions/ResetNolintSuppressions.
-
- Args:
- category: str, the category of the error.
- linenum: int, the current line number.
- Returns:
- bool, True iff the error should be suppressed due to a NOLINT comment.
- """
- return (linenum in _error_suppressions.get(category, set()) or
- linenum in _error_suppressions.get(None, set()))
-
-def Match(pattern, s):
- """Matches the string with the pattern, caching the compiled regexp."""
- # The regexp compilation caching is inlined in both Match and Search for
- # performance reasons; factoring it out into a separate function turns out
- # to be noticeably expensive.
- if pattern not in _regexp_compile_cache:
- _regexp_compile_cache[pattern] = sre_compile.compile(pattern)
- return _regexp_compile_cache[pattern].match(s)
-
-
-def ReplaceAll(pattern, rep, s):
- """Replaces instances of pattern in a string with a replacement.
-
- The compiled regex is kept in a cache shared by Match and Search.
-
- Args:
- pattern: regex pattern
- rep: replacement text
- s: search string
-
- Returns:
- string with replacements made (or original string if no replacements)
- """
- if pattern not in _regexp_compile_cache:
- _regexp_compile_cache[pattern] = sre_compile.compile(pattern)
- return _regexp_compile_cache[pattern].sub(rep, s)
-
-
-def Search(pattern, s):
- """Searches the string for the pattern, caching the compiled regexp."""
- if pattern not in _regexp_compile_cache:
- _regexp_compile_cache[pattern] = sre_compile.compile(pattern)
- return _regexp_compile_cache[pattern].search(s)
-
-
-class _IncludeState(dict):
- """Tracks line numbers for includes, and the order in which includes appear.
-
- As a dict, an _IncludeState object serves as a mapping between include
- filename and line number on which that file was included.
-
- Call CheckNextIncludeOrder() once for each header in the file, passing
- in the type constants defined above. Calls in an illegal order will
- raise an _IncludeError with an appropriate error message.
-
- """
- # self._section will move monotonically through this set. If it ever
- # needs to move backwards, CheckNextIncludeOrder will raise an error.
- _INITIAL_SECTION = 0
- _MY_H_SECTION = 1
- _C_SECTION = 2
- _CPP_SECTION = 3
- _OTHER_H_SECTION = 4
-
- _TYPE_NAMES = {
- _C_SYS_HEADER: 'C system header',
- _CPP_SYS_HEADER: 'C++ system header',
- _LIKELY_MY_HEADER: 'header this file implements',
- _POSSIBLE_MY_HEADER: 'header this file may implement',
- _OTHER_HEADER: 'other header',
- }
- _SECTION_NAMES = {
- _INITIAL_SECTION: "... nothing. (This can't be an error.)",
- _MY_H_SECTION: 'a header this file implements',
- _C_SECTION: 'C system header',
- _CPP_SECTION: 'C++ system header',
- _OTHER_H_SECTION: 'other header',
- }
-
- def __init__(self):
- dict.__init__(self)
- self.ResetSection()
-
- def ResetSection(self):
- # The name of the current section.
- self._section = self._INITIAL_SECTION
- # The path of last found header.
- self._last_header = ''
-
- def SetLastHeader(self, header_path):
- self._last_header = header_path
-
- def CanonicalizeAlphabeticalOrder(self, header_path):
- """Returns a path canonicalized for alphabetical comparison.
-
- - replaces "-" with "_" so they both cmp the same.
- - removes '-inl' since we don't require them to be after the main header.
- - lowercase everything, just in case.
-
- Args:
- header_path: Path to be canonicalized.
-
- Returns:
- Canonicalized path.
- """
- return header_path.replace('-inl.h', '.h').replace('-', '_').lower()
-
- def IsInAlphabeticalOrder(self, clean_lines, linenum, header_path):
- """Check if a header is in alphabetical order with the previous header.
-
- Args:
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- header_path: Canonicalized header to be checked.
-
- Returns:
- Returns true if the header is in alphabetical order.
- """
- # If previous section is different from current section, _last_header will
- # be reset to empty string, so it's always less than current header.
- #
- # If previous line was a blank line, assume that the headers are
- # intentionally sorted the way they are.
- if (self._last_header > header_path and
- not Match(r'^\s*$', clean_lines.elided[linenum - 1])):
- return False
- return True
-
- def CheckNextIncludeOrder(self, header_type):
- """Returns a non-empty error message if the next header is out of order.
-
- This function also updates the internal state to be ready to check
- the next include.
-
- Args:
- header_type: One of the _XXX_HEADER constants defined above.
-
- Returns:
- The empty string if the header is in the right order, or an
- error message describing what's wrong.
-
- """
- error_message = ('Found %s after %s' %
- (self._TYPE_NAMES[header_type],
- self._SECTION_NAMES[self._section]))
-
- last_section = self._section
-
- if header_type == _C_SYS_HEADER:
- if self._section <= self._C_SECTION:
- self._section = self._C_SECTION
- else:
- self._last_header = ''
- return error_message
- elif header_type == _CPP_SYS_HEADER:
- if self._section <= self._CPP_SECTION:
- self._section = self._CPP_SECTION
- else:
- self._last_header = ''
- return error_message
- elif header_type == _LIKELY_MY_HEADER:
- if self._section <= self._MY_H_SECTION:
- self._section = self._MY_H_SECTION
- else:
- self._section = self._OTHER_H_SECTION
- elif header_type == _POSSIBLE_MY_HEADER:
- if self._section <= self._MY_H_SECTION:
- self._section = self._MY_H_SECTION
- else:
- # This will always be the fallback because we're not sure
- # enough that the header is associated with this file.
- self._section = self._OTHER_H_SECTION
- else:
- assert header_type == _OTHER_HEADER
- self._section = self._OTHER_H_SECTION
-
- if last_section != self._section:
- self._last_header = ''
-
- return ''
-
-
-class _CppLintState(object):
- """Maintains module-wide state.."""
-
- def __init__(self):
- self.verbose_level = 1 # global setting.
- self.error_count = 0 # global count of reported errors
- # filters to apply when emitting error messages
- self.filters = _DEFAULT_FILTERS[:]
- self.counting = 'total' # In what way are we counting errors?
- self.errors_by_category = {} # string to int dict storing error counts
-
- # output format:
- # "emacs" - format that emacs can parse (default)
- # "vs7" - format that Microsoft Visual Studio 7 can parse
- self.output_format = 'emacs'
-
- def SetOutputFormat(self, output_format):
- """Sets the output format for errors."""
- self.output_format = output_format
-
- def SetVerboseLevel(self, level):
- """Sets the module's verbosity, and returns the previous setting."""
- last_verbose_level = self.verbose_level
- self.verbose_level = level
- return last_verbose_level
-
- def SetCountingStyle(self, counting_style):
- """Sets the module's counting options."""
- self.counting = counting_style
-
- def SetFilters(self, filters):
- """Sets the error-message filters.
-
- These filters are applied when deciding whether to emit a given
- error message.
-
- Args:
- filters: A string of comma-separated filters (eg "+whitespace/indent").
- Each filter should start with + or -; else we die.
-
- Raises:
- ValueError: The comma-separated filters did not all start with '+' or '-'.
- E.g. "-,+whitespace,-whitespace/indent,whitespace/badfilter"
- """
- # Default filters always have less priority than the flag ones.
- self.filters = _DEFAULT_FILTERS[:]
- for filt in filters.split(','):
- clean_filt = filt.strip()
- if clean_filt:
- self.filters.append(clean_filt)
- for filt in self.filters:
- if not (filt.startswith('+') or filt.startswith('-')):
- raise ValueError('Every filter in --filters must start with + or -'
- ' (%s does not)' % filt)
-
- def ResetErrorCounts(self):
- """Sets the module's error statistic back to zero."""
- self.error_count = 0
- self.errors_by_category = {}
-
- def IncrementErrorCount(self, category):
- """Bumps the module's error statistic."""
- self.error_count += 1
- if self.counting in ('toplevel', 'detailed'):
- if self.counting != 'detailed':
- category = category.split('/')[0]
- if category not in self.errors_by_category:
- self.errors_by_category[category] = 0
- self.errors_by_category[category] += 1
-
- def PrintErrorCounts(self):
- """Print a summary of errors by category, and the total."""
- for category, count in self.errors_by_category.iteritems():
- sys.stderr.write('Category \'%s\' errors found: %d\n' %
- (category, count))
- sys.stderr.write('Total errors found: %d\n' % self.error_count)
-
-_cpplint_state = _CppLintState()
-
-
-def _OutputFormat():
- """Gets the module's output format."""
- return _cpplint_state.output_format
-
-
-def _SetOutputFormat(output_format):
- """Sets the module's output format."""
- _cpplint_state.SetOutputFormat(output_format)
-
-
-def _VerboseLevel():
- """Returns the module's verbosity setting."""
- return _cpplint_state.verbose_level
-
-
-def _SetVerboseLevel(level):
- """Sets the module's verbosity, and returns the previous setting."""
- return _cpplint_state.SetVerboseLevel(level)
-
-
-def _SetCountingStyle(level):
- """Sets the module's counting options."""
- _cpplint_state.SetCountingStyle(level)
-
-
-def _Filters():
- """Returns the module's list of output filters, as a list."""
- return _cpplint_state.filters
-
-
-def _SetFilters(filters):
- """Sets the module's error-message filters.
-
- These filters are applied when deciding whether to emit a given
- error message.
-
- Args:
- filters: A string of comma-separated filters (eg "whitespace/indent").
- Each filter should start with + or -; else we die.
- """
- _cpplint_state.SetFilters(filters)
-
-
-class _FunctionState(object):
- """Tracks current function name and the number of lines in its body."""
-
- _NORMAL_TRIGGER = 250 # for --v=0, 500 for --v=1, etc.
- _TEST_TRIGGER = 400 # about 50% more than _NORMAL_TRIGGER.
-
- def __init__(self):
- self.in_a_function = False
- self.lines_in_function = 0
- self.current_function = ''
-
- def Begin(self, function_name):
- """Start analyzing function body.
-
- Args:
- function_name: The name of the function being tracked.
- """
- self.in_a_function = True
- self.lines_in_function = 0
- self.current_function = function_name
-
- def Count(self):
- """Count line in current function body."""
- if self.in_a_function:
- self.lines_in_function += 1
-
- def Check(self, error, filename, linenum):
- """Report if too many lines in function body.
-
- Args:
- error: The function to call with any errors found.
- filename: The name of the current file.
- linenum: The number of the line to check.
- """
- if Match(r'T(EST|est)', self.current_function):
- base_trigger = self._TEST_TRIGGER
- else:
- base_trigger = self._NORMAL_TRIGGER
- trigger = base_trigger * 2**_VerboseLevel()
-
- if self.lines_in_function > trigger:
- error_level = int(math.log(self.lines_in_function / base_trigger, 2))
- # 50 => 0, 100 => 1, 200 => 2, 400 => 3, 800 => 4, 1600 => 5, ...
- if error_level > 5:
- error_level = 5
- error(filename, linenum, 'readability/fn_size', error_level,
- 'Small and focused functions are preferred:'
- ' %s has %d non-comment lines'
- ' (error triggered by exceeding %d lines).' % (
- self.current_function, self.lines_in_function, trigger))
-
- def End(self):
- """Stop analyzing function body."""
- self.in_a_function = False
-
-
-class _IncludeError(Exception):
- """Indicates a problem with the include order in a file."""
- pass
-
-
-class FileInfo:
- """Provides utility functions for filenames.
-
- FileInfo provides easy access to the components of a file's path
- relative to the project root.
- """
-
- def __init__(self, filename):
- self._filename = filename
-
- def FullName(self):
- """Make Windows paths like Unix."""
- return os.path.abspath(self._filename).replace('\\', '/')
-
- def RepositoryName(self):
- """FullName after removing the local path to the repository.
-
- If we have a real absolute path name here we can try to do something smart:
- detecting the root of the checkout and truncating /path/to/checkout from
- the name so that we get header guards that don't include things like
- "C:\Documents and Settings\..." or "/home/username/..." in them and thus
- people on different computers who have checked the source out to different
- locations won't see bogus errors.
- """
- fullname = self.FullName()
-
- if os.path.exists(fullname):
- project_dir = os.path.dirname(fullname)
-
- if os.path.exists(os.path.join(project_dir, ".svn")):
- # If there's a .svn file in the current directory, we recursively look
- # up the directory tree for the top of the SVN checkout
- root_dir = project_dir
- one_up_dir = os.path.dirname(root_dir)
- while os.path.exists(os.path.join(one_up_dir, ".svn")):
- root_dir = os.path.dirname(root_dir)
- one_up_dir = os.path.dirname(one_up_dir)
-
- prefix = os.path.commonprefix([root_dir, project_dir])
- return fullname[len(prefix) + 1:]
-
- # Not SVN <= 1.6? Try to find a git, hg, or svn top level directory by
- # searching up from the current path.
- root_dir = os.path.dirname(fullname)
- while (root_dir != os.path.dirname(root_dir) and
- not os.path.exists(os.path.join(root_dir, ".git")) and
- not os.path.exists(os.path.join(root_dir, ".hg")) and
- not os.path.exists(os.path.join(root_dir, ".svn"))):
- root_dir = os.path.dirname(root_dir)
-
- if (os.path.exists(os.path.join(root_dir, ".git")) or
- os.path.exists(os.path.join(root_dir, ".hg")) or
- os.path.exists(os.path.join(root_dir, ".svn"))):
- prefix = os.path.commonprefix([root_dir, project_dir])
- return fullname[len(prefix) + 1:]
-
- # Don't know what to do; header guard warnings may be wrong...
- return fullname
-
- def Split(self):
- """Splits the file into the directory, basename, and extension.
-
- For 'chrome/browser/browser.cc', Split() would
- return ('chrome/browser', 'browser', '.cc')
-
- Returns:
- A tuple of (directory, basename, extension).
- """
-
- googlename = self.RepositoryName()
- project, rest = os.path.split(googlename)
- return (project,) + os.path.splitext(rest)
-
- def BaseName(self):
- """File base name - text after the final slash, before the final period."""
- return self.Split()[1]
-
- def Extension(self):
- """File extension - text following the final period."""
- return self.Split()[2]
-
- def NoExtension(self):
- """File has no source file extension."""
- return '/'.join(self.Split()[0:2])
-
- def IsSource(self):
- """File has a source file extension."""
- return self.Extension()[1:] in ('c', 'cc', 'cpp', 'cxx')
-
-
-def _ShouldPrintError(category, confidence, linenum):
- """If confidence >= verbose, category passes filter and is not suppressed."""
-
- # There are three ways we might decide not to print an error message:
- # a "NOLINT(category)" comment appears in the source,
- # the verbosity level isn't high enough, or the filters filter it out.
- if IsErrorSuppressedByNolint(category, linenum):
- return False
- if confidence < _cpplint_state.verbose_level:
- return False
-
- is_filtered = False
- for one_filter in _Filters():
- if one_filter.startswith('-'):
- if category.startswith(one_filter[1:]):
- is_filtered = True
- elif one_filter.startswith('+'):
- if category.startswith(one_filter[1:]):
- is_filtered = False
- else:
- assert False # should have been checked for in SetFilter.
- if is_filtered:
- return False
-
- return True
-
-
-def Error(filename, linenum, category, confidence, message):
- """Logs the fact we've found a lint error.
-
- We log where the error was found, and also our confidence in the error,
- that is, how certain we are this is a legitimate style regression, and
- not a misidentification or a use that's sometimes justified.
-
- False positives can be suppressed by the use of
- "cpplint(category)" comments on the offending line. These are
- parsed into _error_suppressions.
-
- Args:
- filename: The name of the file containing the error.
- linenum: The number of the line containing the error.
- category: A string used to describe the "category" this bug
- falls under: "whitespace", say, or "runtime". Categories
- may have a hierarchy separated by slashes: "whitespace/indent".
- confidence: A number from 1-5 representing a confidence score for
- the error, with 5 meaning that we are certain of the problem,
- and 1 meaning that it could be a legitimate construct.
- message: The error message.
- """
- if _ShouldPrintError(category, confidence, linenum):
- _cpplint_state.IncrementErrorCount(category)
- if _cpplint_state.output_format == 'vs7':
- sys.stderr.write('%s(%s): %s [%s] [%d]\n' % (
- filename, linenum, message, category, confidence))
- elif _cpplint_state.output_format == 'eclipse':
- sys.stderr.write('%s:%s: warning: %s [%s] [%d]\n' % (
- filename, linenum, message, category, confidence))
- else:
- sys.stderr.write('%s:%s: %s [%s] [%d]\n' % (
- filename, linenum, message, category, confidence))
-
-
-# Matches standard C++ escape sequences per 2.13.2.3 of the C++ standard.
-_RE_PATTERN_CLEANSE_LINE_ESCAPES = re.compile(
- r'\\([abfnrtv?"\\\']|\d+|x[0-9a-fA-F]+)')
-# Matches strings. Escape codes should already be removed by ESCAPES.
-_RE_PATTERN_CLEANSE_LINE_DOUBLE_QUOTES = re.compile(r'"[^"]*"')
-# Matches characters. Escape codes should already be removed by ESCAPES.
-_RE_PATTERN_CLEANSE_LINE_SINGLE_QUOTES = re.compile(r"'.'")
-# Matches multi-line C++ comments.
-# This RE is a little bit more complicated than one might expect, because we
-# have to take care of space removals tools so we can handle comments inside
-# statements better.
-# The current rule is: We only clear spaces from both sides when we're at the
-# end of the line. Otherwise, we try to remove spaces from the right side,
-# if this doesn't work we try on left side but only if there's a non-character
-# on the right.
-_RE_PATTERN_CLEANSE_LINE_C_COMMENTS = re.compile(
- r"""(\s*/\*.*\*/\s*$|
- /\*.*\*/\s+|
- \s+/\*.*\*/(?=\W)|
- /\*.*\*/)""", re.VERBOSE)
-
-
-def IsCppString(line):
- """Does line terminate so, that the next symbol is in string constant.
-
- This function does not consider single-line nor multi-line comments.
-
- Args:
- line: is a partial line of code starting from the 0..n.
-
- Returns:
- True, if next character appended to 'line' is inside a
- string constant.
- """
-
- line = line.replace(r'\\', 'XX') # after this, \\" does not match to \"
- return ((line.count('"') - line.count(r'\"') - line.count("'\"'")) & 1) == 1
-
-
-def CleanseRawStrings(raw_lines):
- """Removes C++11 raw strings from lines.
-
- Before:
- static const char kData[] = R"(
- multi-line string
- )";
-
- After:
- static const char kData[] = ""
- (replaced by blank line)
- "";
-
- Args:
- raw_lines: list of raw lines.
-
- Returns:
- list of lines with C++11 raw strings replaced by empty strings.
- """
-
- delimiter = None
- lines_without_raw_strings = []
- for line in raw_lines:
- if delimiter:
- # Inside a raw string, look for the end
- end = line.find(delimiter)
- if end >= 0:
- # Found the end of the string, match leading space for this
- # line and resume copying the original lines, and also insert
- # a "" on the last line.
- leading_space = Match(r'^(\s*)\S', line)
- line = leading_space.group(1) + '""' + line[end + len(delimiter):]
- delimiter = None
- else:
- # Haven't found the end yet, append a blank line.
- line = ''
-
- else:
- # Look for beginning of a raw string.
- # See 2.14.15 [lex.string] for syntax.
- matched = Match(r'^(.*)\b(?:R|u8R|uR|UR|LR)"([^\s\\()]*)\((.*)$', line)
- if matched:
- delimiter = ')' + matched.group(2) + '"'
-
- end = matched.group(3).find(delimiter)
- if end >= 0:
- # Raw string ended on same line
- line = (matched.group(1) + '""' +
- matched.group(3)[end + len(delimiter):])
- delimiter = None
- else:
- # Start of a multi-line raw string
- line = matched.group(1) + '""'
-
- lines_without_raw_strings.append(line)
-
- # TODO(unknown): if delimiter is not None here, we might want to
- # emit a warning for unterminated string.
- return lines_without_raw_strings
-
-
-def FindNextMultiLineCommentStart(lines, lineix):
- """Find the beginning marker for a multiline comment."""
- while lineix < len(lines):
- if lines[lineix].strip().startswith('/*'):
- # Only return this marker if the comment goes beyond this line
- if lines[lineix].strip().find('*/', 2) < 0:
- return lineix
- lineix += 1
- return len(lines)
-
-
-def FindNextMultiLineCommentEnd(lines, lineix):
- """We are inside a comment, find the end marker."""
- while lineix < len(lines):
- if lines[lineix].strip().endswith('*/'):
- return lineix
- lineix += 1
- return len(lines)
-
-
-def RemoveMultiLineCommentsFromRange(lines, begin, end):
- """Clears a range of lines for multi-line comments."""
- # Having // dummy comments makes the lines non-empty, so we will not get
- # unnecessary blank line warnings later in the code.
- for i in range(begin, end):
- lines[i] = '// dummy'
-
-
-def RemoveMultiLineComments(filename, lines, error):
- """Removes multiline (c-style) comments from lines."""
- lineix = 0
- while lineix < len(lines):
- lineix_begin = FindNextMultiLineCommentStart(lines, lineix)
- if lineix_begin >= len(lines):
- return
- lineix_end = FindNextMultiLineCommentEnd(lines, lineix_begin)
- if lineix_end >= len(lines):
- error(filename, lineix_begin + 1, 'readability/multiline_comment', 5,
- 'Could not find end of multi-line comment')
- return
- RemoveMultiLineCommentsFromRange(lines, lineix_begin, lineix_end + 1)
- lineix = lineix_end + 1
-
-
-def CleanseComments(line):
- """Removes //-comments and single-line C-style /* */ comments.
-
- Args:
- line: A line of C++ source.
-
- Returns:
- The line with single-line comments removed.
- """
- commentpos = line.find('//')
- if commentpos != -1 and not IsCppString(line[:commentpos]):
- line = line[:commentpos].rstrip()
- # get rid of /* ... */
- return _RE_PATTERN_CLEANSE_LINE_C_COMMENTS.sub('', line)
-
-
-class CleansedLines(object):
- """Holds 3 copies of all lines with different preprocessing applied to them.
-
- 1) elided member contains lines without strings and comments,
- 2) lines member contains lines without comments, and
- 3) raw_lines member contains all the lines without processing.
- All these three members are of <type 'list'>, and of the same length.
- """
-
- def __init__(self, lines):
- self.elided = []
- self.lines = []
- self.raw_lines = lines
- self.num_lines = len(lines)
- self.lines_without_raw_strings = CleanseRawStrings(lines)
- for linenum in range(len(self.lines_without_raw_strings)):
- self.lines.append(CleanseComments(
- self.lines_without_raw_strings[linenum]))
- elided = self._CollapseStrings(self.lines_without_raw_strings[linenum])
- self.elided.append(CleanseComments(elided))
-
- def NumLines(self):
- """Returns the number of lines represented."""
- return self.num_lines
-
- @staticmethod
- def _CollapseStrings(elided):
- """Collapses strings and chars on a line to simple "" or '' blocks.
-
- We nix strings first so we're not fooled by text like '"http://"'
-
- Args:
- elided: The line being processed.
-
- Returns:
- The line with collapsed strings.
- """
- if not _RE_PATTERN_INCLUDE.match(elided):
- # Remove escaped characters first to make quote/single quote collapsing
- # basic. Things that look like escaped characters shouldn't occur
- # outside of strings and chars.
- elided = _RE_PATTERN_CLEANSE_LINE_ESCAPES.sub('', elided)
- elided = _RE_PATTERN_CLEANSE_LINE_SINGLE_QUOTES.sub("''", elided)
- elided = _RE_PATTERN_CLEANSE_LINE_DOUBLE_QUOTES.sub('""', elided)
- return elided
-
-
-def FindEndOfExpressionInLine(line, startpos, depth, startchar, endchar):
- """Find the position just after the matching endchar.
-
- Args:
- line: a CleansedLines line.
- startpos: start searching at this position.
- depth: nesting level at startpos.
- startchar: expression opening character.
- endchar: expression closing character.
-
- Returns:
- On finding matching endchar: (index just after matching endchar, 0)
- Otherwise: (-1, new depth at end of this line)
- """
- for i in xrange(startpos, len(line)):
- if line[i] == startchar:
- depth += 1
- elif line[i] == endchar:
- depth -= 1
- if depth == 0:
- return (i + 1, 0)
- return (-1, depth)
-
-
-def CloseExpression(clean_lines, linenum, pos):
- """If input points to ( or { or [ or <, finds the position that closes it.
-
- If lines[linenum][pos] points to a '(' or '{' or '[' or '<', finds the
- linenum/pos that correspond to the closing of the expression.
-
- Args:
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- pos: A position on the line.
-
- Returns:
- A tuple (line, linenum, pos) pointer *past* the closing brace, or
- (line, len(lines), -1) if we never find a close. Note we ignore
- strings and comments when matching; and the line we return is the
- 'cleansed' line at linenum.
- """
-
- line = clean_lines.elided[linenum]
- startchar = line[pos]
- if startchar not in '({[<':
- return (line, clean_lines.NumLines(), -1)
- if startchar == '(': endchar = ')'
- if startchar == '[': endchar = ']'
- if startchar == '{': endchar = '}'
- if startchar == '<': endchar = '>'
-
- # Check first line
- (end_pos, num_open) = FindEndOfExpressionInLine(
- line, pos, 0, startchar, endchar)
- if end_pos > -1:
- return (line, linenum, end_pos)
-
- # Continue scanning forward
- while linenum < clean_lines.NumLines() - 1:
- linenum += 1
- line = clean_lines.elided[linenum]
- (end_pos, num_open) = FindEndOfExpressionInLine(
- line, 0, num_open, startchar, endchar)
- if end_pos > -1:
- return (line, linenum, end_pos)
-
- # Did not find endchar before end of file, give up
- return (line, clean_lines.NumLines(), -1)
-
-
-def FindStartOfExpressionInLine(line, endpos, depth, startchar, endchar):
- """Find position at the matching startchar.
-
- This is almost the reverse of FindEndOfExpressionInLine, but note
- that the input position and returned position differs by 1.
-
- Args:
- line: a CleansedLines line.
- endpos: start searching at this position.
- depth: nesting level at endpos.
- startchar: expression opening character.
- endchar: expression closing character.
-
- Returns:
- On finding matching startchar: (index at matching startchar, 0)
- Otherwise: (-1, new depth at beginning of this line)
- """
- for i in xrange(endpos, -1, -1):
- if line[i] == endchar:
- depth += 1
- elif line[i] == startchar:
- depth -= 1
- if depth == 0:
- return (i, 0)
- return (-1, depth)
-
-
-def ReverseCloseExpression(clean_lines, linenum, pos):
- """If input points to ) or } or ] or >, finds the position that opens it.
-
- If lines[linenum][pos] points to a ')' or '}' or ']' or '>', finds the
- linenum/pos that correspond to the opening of the expression.
-
- Args:
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- pos: A position on the line.
-
- Returns:
- A tuple (line, linenum, pos) pointer *at* the opening brace, or
- (line, 0, -1) if we never find the matching opening brace. Note
- we ignore strings and comments when matching; and the line we
- return is the 'cleansed' line at linenum.
- """
- line = clean_lines.elided[linenum]
- endchar = line[pos]
- if endchar not in ')}]>':
- return (line, 0, -1)
- if endchar == ')': startchar = '('
- if endchar == ']': startchar = '['
- if endchar == '}': startchar = '{'
- if endchar == '>': startchar = '<'
-
- # Check last line
- (start_pos, num_open) = FindStartOfExpressionInLine(
- line, pos, 0, startchar, endchar)
- if start_pos > -1:
- return (line, linenum, start_pos)
-
- # Continue scanning backward
- while linenum > 0:
- linenum -= 1
- line = clean_lines.elided[linenum]
- (start_pos, num_open) = FindStartOfExpressionInLine(
- line, len(line) - 1, num_open, startchar, endchar)
- if start_pos > -1:
- return (line, linenum, start_pos)
-
- # Did not find startchar before beginning of file, give up
- return (line, 0, -1)
-
-
-def CheckForCopyright(filename, lines, error):
- """Logs an error if no Copyright message appears at the top of the file."""
-
- # We'll say it should occur by line 10. Don't forget there's a
- # dummy line at the front.
- for line in xrange(1, min(len(lines), 11)):
- if re.search(r'Copyright', lines[line], re.I): break
- else: # means no copyright line was found
- error(filename, 0, 'legal/copyright', 5,
- 'No copyright message found. '
- 'You should have a line: "Copyright [year] <Copyright Owner>"')
-
-
-def GetHeaderGuardCPPVariable(filename):
- """Returns the CPP variable that should be used as a header guard.
-
- Args:
- filename: The name of a C++ header file.
-
- Returns:
- The CPP variable that should be used as a header guard in the
- named file.
-
- """
-
- # Restores original filename in case that cpplint is invoked from Emacs's
- # flymake.
- filename = re.sub(r'_flymake\.h$', '.h', filename)
- filename = re.sub(r'/\.flymake/([^/]*)$', r'/\1', filename)
-
- fileinfo = FileInfo(filename)
- file_path_from_root = fileinfo.RepositoryName()
- if _root:
- file_path_from_root = re.sub('^' + _root + os.sep, '', file_path_from_root)
- return re.sub(r'[-./\s]', '_', file_path_from_root).upper() + '_'
-
-
-def CheckForHeaderGuard(filename, lines, error):
- """Checks that the file contains a header guard.
-
- Logs an error if no #ifndef header guard is present. For other
- headers, checks that the full pathname is used.
-
- Args:
- filename: The name of the C++ header file.
- lines: An array of strings, each representing a line of the file.
- error: The function to call with any errors found.
- """
-
- cppvar = GetHeaderGuardCPPVariable(filename)
-
- ifndef = None
- ifndef_linenum = 0
- define = None
- endif = None
- endif_linenum = 0
- for linenum, line in enumerate(lines):
- linesplit = line.split()
- if len(linesplit) >= 2:
- # find the first occurrence of #ifndef and #define, save arg
- if not ifndef and linesplit[0] == '#ifndef':
- # set ifndef to the header guard presented on the #ifndef line.
- ifndef = linesplit[1]
- ifndef_linenum = linenum
- if not define and linesplit[0] == '#define':
- define = linesplit[1]
- # find the last occurrence of #endif, save entire line
- if line.startswith('#endif'):
- endif = line
- endif_linenum = linenum
-
- if not ifndef:
- error(filename, 0, 'build/header_guard', 5,
- 'No #ifndef header guard found, suggested CPP variable is: %s' %
- cppvar)
- return
-
- if not define:
- error(filename, 0, 'build/header_guard', 5,
- 'No #define header guard found, suggested CPP variable is: %s' %
- cppvar)
- return
-
- # The guard should be PATH_FILE_H_, but we also allow PATH_FILE_H__
- # for backward compatibility.
- if ifndef != cppvar:
- error_level = 0
- if ifndef != cppvar + '_':
- error_level = 5
-
- ParseNolintSuppressions(filename, lines[ifndef_linenum], ifndef_linenum,
- error)
- error(filename, ifndef_linenum, 'build/header_guard', error_level,
- '#ifndef header guard has wrong style, please use: %s' % cppvar)
-
- if define != ifndef:
- error(filename, 0, 'build/header_guard', 5,
- '#ifndef and #define don\'t match, suggested CPP variable is: %s' %
- cppvar)
- return
-
- if endif != ('#endif // %s' % cppvar):
- error_level = 0
- if endif != ('#endif // %s' % (cppvar + '_')):
- error_level = 5
-
- ParseNolintSuppressions(filename, lines[endif_linenum], endif_linenum,
- error)
- error(filename, endif_linenum, 'build/header_guard', error_level,
- '#endif line should be "#endif // %s"' % cppvar)
-
-
-def CheckForBadCharacters(filename, lines, error):
- """Logs an error for each line containing bad characters.
-
- Two kinds of bad characters:
-
- 1. Unicode replacement characters: These indicate that either the file
- contained invalid UTF-8 (likely) or Unicode replacement characters (which
- it shouldn't). Note that it's possible for this to throw off line
- numbering if the invalid UTF-8 occurred adjacent to a newline.
-
- 2. NUL bytes. These are problematic for some tools.
-
- Args:
- filename: The name of the current file.
- lines: An array of strings, each representing a line of the file.
- error: The function to call with any errors found.
- """
- for linenum, line in enumerate(lines):
- if u'\ufffd' in line:
- error(filename, linenum, 'readability/utf8', 5,
- 'Line contains invalid UTF-8 (or Unicode replacement character).')
- if '\0' in line:
- error(filename, linenum, 'readability/nul', 5, 'Line contains NUL byte.')
-
-
-def CheckForNewlineAtEOF(filename, lines, error):
- """Logs an error if there is no newline char at the end of the file.
-
- Args:
- filename: The name of the current file.
- lines: An array of strings, each representing a line of the file.
- error: The function to call with any errors found.
- """
-
- # The array lines() was created by adding two newlines to the
- # original file (go figure), then splitting on \n.
- # To verify that the file ends in \n, we just have to make sure the
- # last-but-two element of lines() exists and is empty.
- if len(lines) < 3 or lines[-2]:
- error(filename, len(lines) - 2, 'whitespace/ending_newline', 5,
- 'Could not find a newline character at the end of the file.')
-
-
-def CheckForMultilineCommentsAndStrings(filename, clean_lines, linenum, error):
- """Logs an error if we see /* ... */ or "..." that extend past one line.
-
- /* ... */ comments are legit inside macros, for one line.
- Otherwise, we prefer // comments, so it's ok to warn about the
- other. Likewise, it's ok for strings to extend across multiple
- lines, as long as a line continuation character (backslash)
- terminates each line. Although not currently prohibited by the C++
- style guide, it's ugly and unnecessary. We don't do well with either
- in this lint program, so we warn about both.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- line = clean_lines.elided[linenum]
-
- # Remove all \\ (escaped backslashes) from the line. They are OK, and the
- # second (escaped) slash may trigger later \" detection erroneously.
- line = line.replace('\\\\', '')
-
- if line.count('/*') > line.count('*/'):
- error(filename, linenum, 'readability/multiline_comment', 5,
- 'Complex multi-line /*...*/-style comment found. '
- 'Lint may give bogus warnings. '
- 'Consider replacing these with //-style comments, '
- 'with #if 0...#endif, '
- 'or with more clearly structured multi-line comments.')
-
- if (line.count('"') - line.count('\\"')) % 2:
- error(filename, linenum, 'readability/multiline_string', 5,
- 'Multi-line string ("...") found. This lint script doesn\'t '
- 'do well with such strings, and may give bogus warnings. '
- 'Use C++11 raw strings or concatenation instead.')
-
-
-threading_list = (
- ('asctime(', 'asctime_r('),
- ('ctime(', 'ctime_r('),
- ('getgrgid(', 'getgrgid_r('),
- ('getgrnam(', 'getgrnam_r('),
- ('getlogin(', 'getlogin_r('),
- ('getpwnam(', 'getpwnam_r('),
- ('getpwuid(', 'getpwuid_r('),
- ('gmtime(', 'gmtime_r('),
- ('localtime(', 'localtime_r('),
- ('rand(', 'rand_r('),
- ('strtok(', 'strtok_r('),
- ('ttyname(', 'ttyname_r('),
- )
-
-
-def CheckPosixThreading(filename, clean_lines, linenum, error):
- """Checks for calls to thread-unsafe functions.
-
- Much code has been originally written without consideration of
- multi-threading. Also, engineers are relying on their old experience;
- they have learned posix before threading extensions were added. These
- tests guide the engineers to use thread-safe functions (when using
- posix directly).
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- line = clean_lines.elided[linenum]
- for single_thread_function, multithread_safe_function in threading_list:
- ix = line.find(single_thread_function)
- # Comparisons made explicit for clarity -- pylint: disable=g-explicit-bool-comparison
- if ix >= 0 and (ix == 0 or (not line[ix - 1].isalnum() and
- line[ix - 1] not in ('_', '.', '>'))):
- error(filename, linenum, 'runtime/threadsafe_fn', 2,
- 'Consider using ' + multithread_safe_function +
- '...) instead of ' + single_thread_function +
- '...) for improved thread safety.')
-
-
-def CheckVlogArguments(filename, clean_lines, linenum, error):
- """Checks that VLOG() is only used for defining a logging level.
-
- For example, VLOG(2) is correct. VLOG(INFO), VLOG(WARNING), VLOG(ERROR), and
- VLOG(FATAL) are not.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- line = clean_lines.elided[linenum]
- if Search(r'\bVLOG\((INFO|ERROR|WARNING|DFATAL|FATAL)\)', line):
- error(filename, linenum, 'runtime/vlog', 5,
- 'VLOG() should be used with numeric verbosity level. '
- 'Use LOG() if you want symbolic severity levels.')
-
-
-# Matches invalid increment: *count++, which moves pointer instead of
-# incrementing a value.
-_RE_PATTERN_INVALID_INCREMENT = re.compile(
- r'^\s*\*\w+(\+\+|--);')
-
-
-def CheckInvalidIncrement(filename, clean_lines, linenum, error):
- """Checks for invalid increment *count++.
-
- For example following function:
- void increment_counter(int* count) {
- *count++;
- }
- is invalid, because it effectively does count++, moving pointer, and should
- be replaced with ++*count, (*count)++ or *count += 1.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- line = clean_lines.elided[linenum]
- if _RE_PATTERN_INVALID_INCREMENT.match(line):
- error(filename, linenum, 'runtime/invalid_increment', 5,
- 'Changing pointer instead of value (or unused value of operator*).')
-
-
-class _BlockInfo(object):
- """Stores information about a generic block of code."""
-
- def __init__(self, seen_open_brace):
- self.seen_open_brace = seen_open_brace
- self.open_parentheses = 0
- self.inline_asm = _NO_ASM
-
- def CheckBegin(self, filename, clean_lines, linenum, error):
- """Run checks that applies to text up to the opening brace.
-
- This is mostly for checking the text after the class identifier
- and the "{", usually where the base class is specified. For other
- blocks, there isn't much to check, so we always pass.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- pass
-
- def CheckEnd(self, filename, clean_lines, linenum, error):
- """Run checks that applies to text after the closing brace.
-
- This is mostly used for checking end of namespace comments.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- pass
-
-
-class _ClassInfo(_BlockInfo):
- """Stores information about a class."""
-
- def __init__(self, name, class_or_struct, clean_lines, linenum):
- _BlockInfo.__init__(self, False)
- self.name = name
- self.starting_linenum = linenum
- self.is_derived = False
- if class_or_struct == 'struct':
- self.access = 'public'
- self.is_struct = True
- else:
- self.access = 'private'
- self.is_struct = False
-
- # Remember initial indentation level for this class. Using raw_lines here
- # instead of elided to account for leading comments.
- initial_indent = Match(r'^( *)\S', clean_lines.raw_lines[linenum])
- if initial_indent:
- self.class_indent = len(initial_indent.group(1))
- else:
- self.class_indent = 0
-
- # Try to find the end of the class. This will be confused by things like:
- # class A {
- # } *x = { ...
- #
- # But it's still good enough for CheckSectionSpacing.
- self.last_line = 0
- depth = 0
- for i in range(linenum, clean_lines.NumLines()):
- line = clean_lines.elided[i]
- depth += line.count('{') - line.count('}')
- if not depth:
- self.last_line = i
- break
-
- def CheckBegin(self, filename, clean_lines, linenum, error):
- # Look for a bare ':'
- if Search('(^|[^:]):($|[^:])', clean_lines.elided[linenum]):
- self.is_derived = True
-
- def CheckEnd(self, filename, clean_lines, linenum, error):
- # Check that closing brace is aligned with beginning of the class.
- # Only do this if the closing brace is indented by only whitespaces.
- # This means we will not check single-line class definitions.
- indent = Match(r'^( *)\}', clean_lines.elided[linenum])
- if indent and len(indent.group(1)) != self.class_indent:
- if self.is_struct:
- parent = 'struct ' + self.name
- else:
- parent = 'class ' + self.name
- error(filename, linenum, 'whitespace/indent', 3,
- 'Closing brace should be aligned with beginning of %s' % parent)
-
-
-class _NamespaceInfo(_BlockInfo):
- """Stores information about a namespace."""
-
- def __init__(self, name, linenum):
- _BlockInfo.__init__(self, False)
- self.name = name or ''
- self.starting_linenum = linenum
-
- def CheckEnd(self, filename, clean_lines, linenum, error):
- """Check end of namespace comments."""
- line = clean_lines.raw_lines[linenum]
-
- # Check how many lines is enclosed in this namespace. Don't issue
- # warning for missing namespace comments if there aren't enough
- # lines. However, do apply checks if there is already an end of
- # namespace comment and it's incorrect.
- #
- # TODO(unknown): We always want to check end of namespace comments
- # if a namespace is large, but sometimes we also want to apply the
- # check if a short namespace contained nontrivial things (something
- # other than forward declarations). There is currently no logic on
- # deciding what these nontrivial things are, so this check is
- # triggered by namespace size only, which works most of the time.
- if (linenum - self.starting_linenum < 10
- and not Match(r'};*\s*(//|/\*).*\bnamespace\b', line)):
- return
-
- # Look for matching comment at end of namespace.
- #
- # Note that we accept C style "/* */" comments for terminating
- # namespaces, so that code that terminate namespaces inside
- # preprocessor macros can be cpplint clean.
- #
- # We also accept stuff like "// end of namespace <name>." with the
- # period at the end.
- #
- # Besides these, we don't accept anything else, otherwise we might
- # get false negatives when existing comment is a substring of the
- # expected namespace.
- if self.name:
- # Named namespace
- if not Match((r'};*\s*(//|/\*).*\bnamespace\s+' + re.escape(self.name) +
- r'[\*/\.\\\s]*$'),
- line):
- error(filename, linenum, 'readability/namespace', 5,
- 'Namespace should be terminated with "// namespace %s"' %
- self.name)
- else:
- # Anonymous namespace
- if not Match(r'};*\s*(//|/\*).*\bnamespace[\*/\.\\\s]*$', line):
- error(filename, linenum, 'readability/namespace', 5,
- 'Namespace should be terminated with "// namespace"')
-
-
-class _PreprocessorInfo(object):
- """Stores checkpoints of nesting stacks when #if/#else is seen."""
-
- def __init__(self, stack_before_if):
- # The entire nesting stack before #if
- self.stack_before_if = stack_before_if
-
- # The entire nesting stack up to #else
- self.stack_before_else = []
-
- # Whether we have already seen #else or #elif
- self.seen_else = False
-
-
-class _NestingState(object):
- """Holds states related to parsing braces."""
-
- def __init__(self):
- # Stack for tracking all braces. An object is pushed whenever we
- # see a "{", and popped when we see a "}". Only 3 types of
- # objects are possible:
- # - _ClassInfo: a class or struct.
- # - _NamespaceInfo: a namespace.
- # - _BlockInfo: some other type of block.
- self.stack = []
-
- # Stack of _PreprocessorInfo objects.
- self.pp_stack = []
-
- def SeenOpenBrace(self):
- """Check if we have seen the opening brace for the innermost block.
-
- Returns:
- True if we have seen the opening brace, False if the innermost
- block is still expecting an opening brace.
- """
- return (not self.stack) or self.stack[-1].seen_open_brace
-
- def InNamespaceBody(self):
- """Check if we are currently one level inside a namespace body.
-
- Returns:
- True if top of the stack is a namespace block, False otherwise.
- """
- return self.stack and isinstance(self.stack[-1], _NamespaceInfo)
-
- def UpdatePreprocessor(self, line):
- """Update preprocessor stack.
-
- We need to handle preprocessors due to classes like this:
- #ifdef SWIG
- struct ResultDetailsPageElementExtensionPoint {
- #else
- struct ResultDetailsPageElementExtensionPoint : public Extension {
- #endif
-
- We make the following assumptions (good enough for most files):
- - Preprocessor condition evaluates to true from #if up to first
- #else/#elif/#endif.
-
- - Preprocessor condition evaluates to false from #else/#elif up
- to #endif. We still perform lint checks on these lines, but
- these do not affect nesting stack.
-
- Args:
- line: current line to check.
- """
- if Match(r'^\s*#\s*(if|ifdef|ifndef)\b', line):
- # Beginning of #if block, save the nesting stack here. The saved
- # stack will allow us to restore the parsing state in the #else case.
- self.pp_stack.append(_PreprocessorInfo(copy.deepcopy(self.stack)))
- elif Match(r'^\s*#\s*(else|elif)\b', line):
- # Beginning of #else block
- if self.pp_stack:
- if not self.pp_stack[-1].seen_else:
- # This is the first #else or #elif block. Remember the
- # whole nesting stack up to this point. This is what we
- # keep after the #endif.
- self.pp_stack[-1].seen_else = True
- self.pp_stack[-1].stack_before_else = copy.deepcopy(self.stack)
-
- # Restore the stack to how it was before the #if
- self.stack = copy.deepcopy(self.pp_stack[-1].stack_before_if)
- else:
- # TODO(unknown): unexpected #else, issue warning?
- pass
- elif Match(r'^\s*#\s*endif\b', line):
- # End of #if or #else blocks.
- if self.pp_stack:
- # If we saw an #else, we will need to restore the nesting
- # stack to its former state before the #else, otherwise we
- # will just continue from where we left off.
- if self.pp_stack[-1].seen_else:
- # Here we can just use a shallow copy since we are the last
- # reference to it.
- self.stack = self.pp_stack[-1].stack_before_else
- # Drop the corresponding #if
- self.pp_stack.pop()
- else:
- # TODO(unknown): unexpected #endif, issue warning?
- pass
-
- def Update(self, filename, clean_lines, linenum, error):
- """Update nesting state with current line.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- line = clean_lines.elided[linenum]
-
- # Update pp_stack first
- self.UpdatePreprocessor(line)
-
- # Count parentheses. This is to avoid adding struct arguments to
- # the nesting stack.
- if self.stack:
- inner_block = self.stack[-1]
- depth_change = line.count('(') - line.count(')')
- inner_block.open_parentheses += depth_change
-
- # Also check if we are starting or ending an inline assembly block.
- if inner_block.inline_asm in (_NO_ASM, _END_ASM):
- if (depth_change != 0 and
- inner_block.open_parentheses == 1 and
- _MATCH_ASM.match(line)):
- # Enter assembly block
- inner_block.inline_asm = _INSIDE_ASM
- else:
- # Not entering assembly block. If previous line was _END_ASM,
- # we will now shift to _NO_ASM state.
- inner_block.inline_asm = _NO_ASM
- elif (inner_block.inline_asm == _INSIDE_ASM and
- inner_block.open_parentheses == 0):
- # Exit assembly block
- inner_block.inline_asm = _END_ASM
-
- # Consume namespace declaration at the beginning of the line. Do
- # this in a loop so that we catch same line declarations like this:
- # namespace proto2 { namespace bridge { class MessageSet; } }
- while True:
- # Match start of namespace. The "\b\s*" below catches namespace
- # declarations even if it weren't followed by a whitespace, this
- # is so that we don't confuse our namespace checker. The
- # missing spaces will be flagged by CheckSpacing.
- namespace_decl_match = Match(r'^\s*namespace\b\s*([:\w]+)?(.*)$', line)
- if not namespace_decl_match:
- break
-
- new_namespace = _NamespaceInfo(namespace_decl_match.group(1), linenum)
- self.stack.append(new_namespace)
-
- line = namespace_decl_match.group(2)
- if line.find('{') != -1:
- new_namespace.seen_open_brace = True
- line = line[line.find('{') + 1:]
-
- # Look for a class declaration in whatever is left of the line
- # after parsing namespaces. The regexp accounts for decorated classes
- # such as in:
- # class LOCKABLE API Object {
- # };
- #
- # Templates with class arguments may confuse the parser, for example:
- # template <class T
- # class Comparator = less<T>,
- # class Vector = vector<T> >
- # class HeapQueue {
- #
- # Because this parser has no nesting state about templates, by the
- # time it saw "class Comparator", it may think that it's a new class.
- # Nested templates have a similar problem:
- # template <
- # typename ExportedType,
- # typename TupleType,
- # template <typename, typename> class ImplTemplate>
- #
- # To avoid these cases, we ignore classes that are followed by '=' or '>'
- class_decl_match = Match(
- r'\s*(template\s*<[\w\s<>,:]*>\s*)?'
- r'(class|struct)\s+([A-Z_]+\s+)*(\w+(?:::\w+)*)'
- r'(([^=>]|<[^<>]*>|<[^<>]*<[^<>]*>\s*>)*)$', line)
- if (class_decl_match and
- (not self.stack or self.stack[-1].open_parentheses == 0)):
- self.stack.append(_ClassInfo(
- class_decl_match.group(4), class_decl_match.group(2),
- clean_lines, linenum))
- line = class_decl_match.group(5)
-
- # If we have not yet seen the opening brace for the innermost block,
- # run checks here.
- if not self.SeenOpenBrace():
- self.stack[-1].CheckBegin(filename, clean_lines, linenum, error)
-
- # Update access control if we are inside a class/struct
- if self.stack and isinstance(self.stack[-1], _ClassInfo):
- classinfo = self.stack[-1]
- access_match = Match(
- r'^(.*)\b(public|private|protected|signals)(\s+(?:slots\s*)?)?'
- r':(?:[^:]|$)',
- line)
- if access_match:
- classinfo.access = access_match.group(2)
-
- # Check that access keywords are indented +1 space. Skip this
- # check if the keywords are not preceded by whitespaces.
- indent = access_match.group(1)
- if (len(indent) != classinfo.class_indent + 1 and
- Match(r'^\s*$', indent)):
- if classinfo.is_struct:
- parent = 'struct ' + classinfo.name
- else:
- parent = 'class ' + classinfo.name
- slots = ''
- if access_match.group(3):
- slots = access_match.group(3)
- error(filename, linenum, 'whitespace/indent', 3,
- '%s%s: should be indented +1 space inside %s' % (
- access_match.group(2), slots, parent))
-
- # Consume braces or semicolons from what's left of the line
- while True:
- # Match first brace, semicolon, or closed parenthesis.
- matched = Match(r'^[^{;)}]*([{;)}])(.*)$', line)
- if not matched:
- break
-
- token = matched.group(1)
- if token == '{':
- # If namespace or class hasn't seen a opening brace yet, mark
- # namespace/class head as complete. Push a new block onto the
- # stack otherwise.
- if not self.SeenOpenBrace():
- self.stack[-1].seen_open_brace = True
- else:
- self.stack.append(_BlockInfo(True))
- if _MATCH_ASM.match(line):
- self.stack[-1].inline_asm = _BLOCK_ASM
- elif token == ';' or token == ')':
- # If we haven't seen an opening brace yet, but we already saw
- # a semicolon, this is probably a forward declaration. Pop
- # the stack for these.
- #
- # Similarly, if we haven't seen an opening brace yet, but we
- # already saw a closing parenthesis, then these are probably
- # function arguments with extra "class" or "struct" keywords.
- # Also pop these stack for these.
- if not self.SeenOpenBrace():
- self.stack.pop()
- else: # token == '}'
- # Perform end of block checks and pop the stack.
- if self.stack:
- self.stack[-1].CheckEnd(filename, clean_lines, linenum, error)
- self.stack.pop()
- line = matched.group(2)
-
- def InnermostClass(self):
- """Get class info on the top of the stack.
-
- Returns:
- A _ClassInfo object if we are inside a class, or None otherwise.
- """
- for i in range(len(self.stack), 0, -1):
- classinfo = self.stack[i - 1]
- if isinstance(classinfo, _ClassInfo):
- return classinfo
- return None
-
- def CheckCompletedBlocks(self, filename, error):
- """Checks that all classes and namespaces have been completely parsed.
-
- Call this when all lines in a file have been processed.
- Args:
- filename: The name of the current file.
- error: The function to call with any errors found.
- """
- # Note: This test can result in false positives if #ifdef constructs
- # get in the way of brace matching. See the testBuildClass test in
- # cpplint_unittest.py for an example of this.
- for obj in self.stack:
- if isinstance(obj, _ClassInfo):
- error(filename, obj.starting_linenum, 'build/class', 5,
- 'Failed to find complete declaration of class %s' %
- obj.name)
- elif isinstance(obj, _NamespaceInfo):
- error(filename, obj.starting_linenum, 'build/namespaces', 5,
- 'Failed to find complete declaration of namespace %s' %
- obj.name)
-
-
-def CheckForNonStandardConstructs(filename, clean_lines, linenum,
- nesting_state, error):
- r"""Logs an error if we see certain non-ANSI constructs ignored by gcc-2.
-
- Complain about several constructs which gcc-2 accepts, but which are
- not standard C++. Warning about these in lint is one way to ease the
- transition to new compilers.
- - put storage class first (e.g. "static const" instead of "const static").
- - "%lld" instead of %qd" in printf-type functions.
- - "%1$d" is non-standard in printf-type functions.
- - "\%" is an undefined character escape sequence.
- - text after #endif is not allowed.
- - invalid inner-style forward declaration.
- - >? and <? operators, and their >?= and <?= cousins.
-
- Additionally, check for constructor/destructor style violations and reference
- members, as it is very convenient to do so while checking for
- gcc-2 compliance.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- nesting_state: A _NestingState instance which maintains information about
- the current stack of nested blocks being parsed.
- error: A callable to which errors are reported, which takes 4 arguments:
- filename, line number, error level, and message
- """
-
- # Remove comments from the line, but leave in strings for now.
- line = clean_lines.lines[linenum]
-
- if Search(r'printf\s*\(.*".*%[-+ ]?\d*q', line):
- error(filename, linenum, 'runtime/printf_format', 3,
- '%q in format strings is deprecated. Use %ll instead.')
-
- if Search(r'printf\s*\(.*".*%\d+\$', line):
- error(filename, linenum, 'runtime/printf_format', 2,
- '%N$ formats are unconventional. Try rewriting to avoid them.')
-
- # Remove escaped backslashes before looking for undefined escapes.
- line = line.replace('\\\\', '')
-
- if Search(r'("|\').*\\(%|\[|\(|{)', line):
- error(filename, linenum, 'build/printf_format', 3,
- '%, [, (, and { are undefined character escapes. Unescape them.')
-
- # For the rest, work with both comments and strings removed.
- line = clean_lines.elided[linenum]
-
- if Search(r'\b(const|volatile|void|char|short|int|long'
- r'|float|double|signed|unsigned'
- r'|schar|u?int8|u?int16|u?int32|u?int64)'
- r'\s+(register|static|extern|typedef)\b',
- line):
- error(filename, linenum, 'build/storage_class', 5,
- 'Storage class (static, extern, typedef, etc) should be first.')
-
- if Match(r'\s*#\s*endif\s*[^/\s]+', line):
- error(filename, linenum, 'build/endif_comment', 5,
- 'Uncommented text after #endif is non-standard. Use a comment.')
-
- if Match(r'\s*class\s+(\w+\s*::\s*)+\w+\s*;', line):
- error(filename, linenum, 'build/forward_decl', 5,
- 'Inner-style forward declarations are invalid. Remove this line.')
-
- if Search(r'(\w+|[+-]?\d+(\.\d*)?)\s*(<|>)\?=?\s*(\w+|[+-]?\d+)(\.\d*)?',
- line):
- error(filename, linenum, 'build/deprecated', 3,
- '>? and <? (max and min) operators are non-standard and deprecated.')
-
- if Search(r'^\s*const\s*string\s*&\s*\w+\s*;', line):
- # TODO(unknown): Could it be expanded safely to arbitrary references,
- # without triggering too many false positives? The first
- # attempt triggered 5 warnings for mostly benign code in the regtest, hence
- # the restriction.
- # Here's the original regexp, for the reference:
- # type_name = r'\w+((\s*::\s*\w+)|(\s*<\s*\w+?\s*>))?'
- # r'\s*const\s*' + type_name + '\s*&\s*\w+\s*;'
- error(filename, linenum, 'runtime/member_string_references', 2,
- 'const string& members are dangerous. It is much better to use '
- 'alternatives, such as pointers or simple constants.')
-
- # Everything else in this function operates on class declarations.
- # Return early if the top of the nesting stack is not a class, or if
- # the class head is not completed yet.
- classinfo = nesting_state.InnermostClass()
- if not classinfo or not classinfo.seen_open_brace:
- return
-
- # The class may have been declared with namespace or classname qualifiers.
- # The constructor and destructor will not have those qualifiers.
- base_classname = classinfo.name.split('::')[-1]
-
- # Look for single-argument constructors that aren't marked explicit.
- # Technically a valid construct, but against style.
- args = Match(r'\s+(?:inline\s+)?%s\s*\(([^,()]+)\)'
- % re.escape(base_classname),
- line)
- if (args and
- args.group(1) != 'void' and
- not Match(r'(const\s+)?%s(\s+const)?\s*(?:<\w+>\s*)?&'
- % re.escape(base_classname), args.group(1).strip())):
- error(filename, linenum, 'runtime/explicit', 5,
- 'Single-argument constructors should be marked explicit.')
-
-
-def CheckSpacingForFunctionCall(filename, line, linenum, error):
- """Checks for the correctness of various spacing around function calls.
-
- Args:
- filename: The name of the current file.
- line: The text of the line to check.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
-
- # Since function calls often occur inside if/for/while/switch
- # expressions - which have their own, more liberal conventions - we
- # first see if we should be looking inside such an expression for a
- # function call, to which we can apply more strict standards.
- fncall = line # if there's no control flow construct, look at whole line
- for pattern in (r'\bif\s*\((.*)\)\s*{',
- r'\bfor\s*\((.*)\)\s*{',
- r'\bwhile\s*\((.*)\)\s*[{;]',
- r'\bswitch\s*\((.*)\)\s*{'):
- match = Search(pattern, line)
- if match:
- fncall = match.group(1) # look inside the parens for function calls
- break
-
- # Except in if/for/while/switch, there should never be space
- # immediately inside parens (eg "f( 3, 4 )"). We make an exception
- # for nested parens ( (a+b) + c ). Likewise, there should never be
- # a space before a ( when it's a function argument. I assume it's a
- # function argument when the char before the whitespace is legal in
- # a function name (alnum + _) and we're not starting a macro. Also ignore
- # pointers and references to arrays and functions coz they're too tricky:
- # we use a very simple way to recognize these:
- # " (something)(maybe-something)" or
- # " (something)(maybe-something," or
- # " (something)[something]"
- # Note that we assume the contents of [] to be short enough that
- # they'll never need to wrap.
- if ( # Ignore control structures.
- not Search(r'\b(if|for|while|switch|return|new|delete|catch|sizeof)\b',
- fncall) and
- # Ignore pointers/references to functions.
- not Search(r' \([^)]+\)\([^)]*(\)|,$)', fncall) and
- # Ignore pointers/references to arrays.
- not Search(r' \([^)]+\)\[[^\]]+\]', fncall)):
- if Search(r'\w\s*\(\s(?!\s*\\$)', fncall): # a ( used for a fn call
- error(filename, linenum, 'whitespace/parens', 4,
- 'Extra space after ( in function call')
- elif Search(r'\(\s+(?!(\s*\\)|\()', fncall):
- error(filename, linenum, 'whitespace/parens', 2,
- 'Extra space after (')
- if (Search(r'\w\s+\(', fncall) and
- not Search(r'#\s*define|typedef', fncall) and
- not Search(r'\w\s+\((\w+::)*\*\w+\)\(', fncall)):
- error(filename, linenum, 'whitespace/parens', 4,
- 'Extra space before ( in function call')
- # If the ) is followed only by a newline or a { + newline, assume it's
- # part of a control statement (if/while/etc), and don't complain
- if Search(r'[^)]\s+\)\s*[^{\s]', fncall):
- # If the closing parenthesis is preceded by only whitespaces,
- # try to give a more descriptive error message.
- if Search(r'^\s+\)', fncall):
- error(filename, linenum, 'whitespace/parens', 2,
- 'Closing ) should be moved to the previous line')
- else:
- error(filename, linenum, 'whitespace/parens', 2,
- 'Extra space before )')
-
-
-def IsBlankLine(line):
- """Returns true if the given line is blank.
-
- We consider a line to be blank if the line is empty or consists of
- only white spaces.
-
- Args:
- line: A line of a string.
-
- Returns:
- True, if the given line is blank.
- """
- return not line or line.isspace()
-
-
-def CheckForFunctionLengths(filename, clean_lines, linenum,
- function_state, error):
- """Reports for long function bodies.
-
- For an overview why this is done, see:
- http://google-styleguide.googlecode.com/svn/trunk/cppguide.xml#Write_Short_Functions
-
- Uses a simplistic algorithm assuming other style guidelines
- (especially spacing) are followed.
- Only checks unindented functions, so class members are unchecked.
- Trivial bodies are unchecked, so constructors with huge initializer lists
- may be missed.
- Blank/comment lines are not counted so as to avoid encouraging the removal
- of vertical space and comments just to get through a lint check.
- NOLINT *on the last line of a function* disables this check.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- function_state: Current function name and lines in body so far.
- error: The function to call with any errors found.
- """
- lines = clean_lines.lines
- line = lines[linenum]
- raw = clean_lines.raw_lines
- raw_line = raw[linenum]
- joined_line = ''
-
- starting_func = False
- regexp = r'(\w(\w|::|\*|\&|\s)*)\(' # decls * & space::name( ...
- match_result = Match(regexp, line)
- if match_result:
- # If the name is all caps and underscores, figure it's a macro and
- # ignore it, unless it's TEST or TEST_F.
- function_name = match_result.group(1).split()[-1]
- if function_name == 'TEST' or function_name == 'TEST_F' or (
- not Match(r'[A-Z_]+$', function_name)):
- starting_func = True
-
- if starting_func:
- body_found = False
- for start_linenum in xrange(linenum, clean_lines.NumLines()):
- start_line = lines[start_linenum]
- joined_line += ' ' + start_line.lstrip()
- if Search(r'(;|})', start_line): # Declarations and trivial functions
- body_found = True
- break # ... ignore
- elif Search(r'{', start_line):
- body_found = True
- function = Search(r'((\w|:)*)\(', line).group(1)
- if Match(r'TEST', function): # Handle TEST... macros
- parameter_regexp = Search(r'(\(.*\))', joined_line)
- if parameter_regexp: # Ignore bad syntax
- function += parameter_regexp.group(1)
- else:
- function += '()'
- function_state.Begin(function)
- break
- if not body_found:
- # No body for the function (or evidence of a non-function) was found.
- error(filename, linenum, 'readability/fn_size', 5,
- 'Lint failed to find start of function body.')
- elif Match(r'^\}\s*$', line): # function end
- function_state.Check(error, filename, linenum)
- function_state.End()
- elif not Match(r'^\s*$', line):
- function_state.Count() # Count non-blank/non-comment lines.
-
-
-_RE_PATTERN_TODO = re.compile(r'^//(\s*)TODO(\(.+?\))?:?(\s|$)?')
-
-
-def CheckComment(comment, filename, linenum, error):
- """Checks for common mistakes in TODO comments.
-
- Args:
- comment: The text of the comment from the line in question.
- filename: The name of the current file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- match = _RE_PATTERN_TODO.match(comment)
- if match:
- # One whitespace is correct; zero whitespace is handled elsewhere.
- leading_whitespace = match.group(1)
- if len(leading_whitespace) > 1:
- error(filename, linenum, 'whitespace/todo', 2,
- 'Too many spaces before TODO')
-
- username = match.group(2)
- if not username:
- error(filename, linenum, 'readability/todo', 2,
- 'Missing username in TODO; it should look like '
- '"// TODO(my_username): Stuff."')
-
- middle_whitespace = match.group(3)
- # Comparisons made explicit for correctness -- pylint: disable=g-explicit-bool-comparison
- if middle_whitespace != ' ' and middle_whitespace != '':
- error(filename, linenum, 'whitespace/todo', 2,
- 'TODO(my_username) should be followed by a space')
-
-def CheckAccess(filename, clean_lines, linenum, nesting_state, error):
- """Checks for improper use of DISALLOW* macros.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- nesting_state: A _NestingState instance which maintains information about
- the current stack of nested blocks being parsed.
- error: The function to call with any errors found.
- """
- line = clean_lines.elided[linenum] # get rid of comments and strings
-
- matched = Match((r'\s*(DISALLOW_COPY_AND_ASSIGN|'
- r'DISALLOW_EVIL_CONSTRUCTORS|'
- r'DISALLOW_IMPLICIT_CONSTRUCTORS)'), line)
- if not matched:
- return
- if nesting_state.stack and isinstance(nesting_state.stack[-1], _ClassInfo):
- if nesting_state.stack[-1].access != 'private':
- error(filename, linenum, 'readability/constructors', 3,
- '%s must be in the private: section' % matched.group(1))
-
- else:
- # Found DISALLOW* macro outside a class declaration, or perhaps it
- # was used inside a function when it should have been part of the
- # class declaration. We could issue a warning here, but it
- # probably resulted in a compiler error already.
- pass
-
-
-def FindNextMatchingAngleBracket(clean_lines, linenum, init_suffix):
- """Find the corresponding > to close a template.
-
- Args:
- clean_lines: A CleansedLines instance containing the file.
- linenum: Current line number.
- init_suffix: Remainder of the current line after the initial <.
-
- Returns:
- True if a matching bracket exists.
- """
- line = init_suffix
- nesting_stack = ['<']
- while True:
- # Find the next operator that can tell us whether < is used as an
- # opening bracket or as a less-than operator. We only want to
- # warn on the latter case.
- #
- # We could also check all other operators and terminate the search
- # early, e.g. if we got something like this "a<b+c", the "<" is
- # most likely a less-than operator, but then we will get false
- # positives for default arguments and other template expressions.
- match = Search(r'^[^<>(),;\[\]]*([<>(),;\[\]])(.*)$', line)
- if match:
- # Found an operator, update nesting stack
- operator = match.group(1)
- line = match.group(2)
-
- if nesting_stack[-1] == '<':
- # Expecting closing angle bracket
- if operator in ('<', '(', '['):
- nesting_stack.append(operator)
- elif operator == '>':
- nesting_stack.pop()
- if not nesting_stack:
- # Found matching angle bracket
- return True
- elif operator == ',':
- # Got a comma after a bracket, this is most likely a template
- # argument. We have not seen a closing angle bracket yet, but
- # it's probably a few lines later if we look for it, so just
- # return early here.
- return True
- else:
- # Got some other operator.
- return False
-
- else:
- # Expecting closing parenthesis or closing bracket
- if operator in ('<', '(', '['):
- nesting_stack.append(operator)
- elif operator in (')', ']'):
- # We don't bother checking for matching () or []. If we got
- # something like (] or [), it would have been a syntax error.
- nesting_stack.pop()
-
- else:
- # Scan the next line
- linenum += 1
- if linenum >= len(clean_lines.elided):
- break
- line = clean_lines.elided[linenum]
-
- # Exhausted all remaining lines and still no matching angle bracket.
- # Most likely the input was incomplete, otherwise we should have
- # seen a semicolon and returned early.
- return True
-
-
-def FindPreviousMatchingAngleBracket(clean_lines, linenum, init_prefix):
- """Find the corresponding < that started a template.
-
- Args:
- clean_lines: A CleansedLines instance containing the file.
- linenum: Current line number.
- init_prefix: Part of the current line before the initial >.
-
- Returns:
- True if a matching bracket exists.
- """
- line = init_prefix
- nesting_stack = ['>']
- while True:
- # Find the previous operator
- match = Search(r'^(.*)([<>(),;\[\]])[^<>(),;\[\]]*$', line)
- if match:
- # Found an operator, update nesting stack
- operator = match.group(2)
- line = match.group(1)
-
- if nesting_stack[-1] == '>':
- # Expecting opening angle bracket
- if operator in ('>', ')', ']'):
- nesting_stack.append(operator)
- elif operator == '<':
- nesting_stack.pop()
- if not nesting_stack:
- # Found matching angle bracket
- return True
- elif operator == ',':
- # Got a comma before a bracket, this is most likely a
- # template argument. The opening angle bracket is probably
- # there if we look for it, so just return early here.
- return True
- else:
- # Got some other operator.
- return False
-
- else:
- # Expecting opening parenthesis or opening bracket
- if operator in ('>', ')', ']'):
- nesting_stack.append(operator)
- elif operator in ('(', '['):
- nesting_stack.pop()
-
- else:
- # Scan the previous line
- linenum -= 1
- if linenum < 0:
- break
- line = clean_lines.elided[linenum]
-
- # Exhausted all earlier lines and still no matching angle bracket.
- return False
-
-
-def CheckSpacing(filename, clean_lines, linenum, nesting_state, error):
- """Checks for the correctness of various spacing issues in the code.
-
- Things we check for: spaces around operators, spaces after
- if/for/while/switch, no spaces around parens in function calls, two
- spaces between code and comment, don't start a block with a blank
- line, don't end a function with a blank line, don't add a blank line
- after public/protected/private, don't have too many blank lines in a row.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- nesting_state: A _NestingState instance which maintains information about
- the current stack of nested blocks being parsed.
- error: The function to call with any errors found.
- """
-
- # Don't use "elided" lines here, otherwise we can't check commented lines.
- # Don't want to use "raw" either, because we don't want to check inside C++11
- # raw strings,
- raw = clean_lines.lines_without_raw_strings
- line = raw[linenum]
-
- # Before nixing comments, check if the line is blank for no good
- # reason. This includes the first line after a block is opened, and
- # blank lines at the end of a function (ie, right before a line like '}'
- #
- # Skip all the blank line checks if we are immediately inside a
- # namespace body. In other words, don't issue blank line warnings
- # for this block:
- # namespace {
- #
- # }
- #
- # A warning about missing end of namespace comments will be issued instead.
- if IsBlankLine(line) and not nesting_state.InNamespaceBody():
- elided = clean_lines.elided
- prev_line = elided[linenum - 1]
- prevbrace = prev_line.rfind('{')
- # TODO(unknown): Don't complain if line before blank line, and line after,
- # both start with alnums and are indented the same amount.
- # This ignores whitespace at the start of a namespace block
- # because those are not usually indented.
- if prevbrace != -1 and prev_line[prevbrace:].find('}') == -1:
- # OK, we have a blank line at the start of a code block. Before we
- # complain, we check if it is an exception to the rule: The previous
- # non-empty line has the parameters of a function header that are indented
- # 4 spaces (because they did not fit in a 80 column line when placed on
- # the same line as the function name). We also check for the case where
- # the previous line is indented 6 spaces, which may happen when the
- # initializers of a constructor do not fit into a 80 column line.
- exception = False
- if Match(r' {6}\w', prev_line): # Initializer list?
- # We are looking for the opening column of initializer list, which
- # should be indented 4 spaces to cause 6 space indentation afterwards.
- search_position = linenum-2
- while (search_position >= 0
- and Match(r' {6}\w', elided[search_position])):
- search_position -= 1
- exception = (search_position >= 0
- and elided[search_position][:5] == ' :')
- else:
- # Search for the function arguments or an initializer list. We use a
- # simple heuristic here: If the line is indented 4 spaces; and we have a
- # closing paren, without the opening paren, followed by an opening brace
- # or colon (for initializer lists) we assume that it is the last line of
- # a function header. If we have a colon indented 4 spaces, it is an
- # initializer list.
- exception = (Match(r' {4}\w[^\(]*\)\s*(const\s*)?(\{\s*$|:)',
- prev_line)
- or Match(r' {4}:', prev_line))
-
- if not exception:
- error(filename, linenum, 'whitespace/blank_line', 2,
- 'Redundant blank line at the start of a code block '
- 'should be deleted.')
- # Ignore blank lines at the end of a block in a long if-else
- # chain, like this:
- # if (condition1) {
- # // Something followed by a blank line
- #
- # } else if (condition2) {
- # // Something else
- # }
- if linenum + 1 < clean_lines.NumLines():
- next_line = raw[linenum + 1]
- if (next_line
- and Match(r'\s*}', next_line)
- and next_line.find('} else ') == -1):
- error(filename, linenum, 'whitespace/blank_line', 3,
- 'Redundant blank line at the end of a code block '
- 'should be deleted.')
-
- matched = Match(r'\s*(public|protected|private):', prev_line)
- if matched:
- error(filename, linenum, 'whitespace/blank_line', 3,
- 'Do not leave a blank line after "%s:"' % matched.group(1))
-
- # Next, we complain if there's a comment too near the text
- commentpos = line.find('//')
- if commentpos != -1:
- # Check if the // may be in quotes. If so, ignore it
- # Comparisons made explicit for clarity -- pylint: disable=g-explicit-bool-comparison
- if (line.count('"', 0, commentpos) -
- line.count('\\"', 0, commentpos)) % 2 == 0: # not in quotes
- # Allow one space for new scopes, two spaces otherwise:
- if (not Match(r'^\s*{ //', line) and
- ((commentpos >= 1 and
- line[commentpos-1] not in string.whitespace) or
- (commentpos >= 2 and
- line[commentpos-2] not in string.whitespace))):
- error(filename, linenum, 'whitespace/comments', 2,
- 'At least two spaces is best between code and comments')
- # There should always be a space between the // and the comment
- commentend = commentpos + 2
- if commentend < len(line) and not line[commentend] == ' ':
- # but some lines are exceptions -- e.g. if they're big
- # comment delimiters like:
- # //----------------------------------------------------------
- # or are an empty C++ style Doxygen comment, like:
- # ///
- # or C++ style Doxygen comments placed after the variable:
- # ///< Header comment
- # //!< Header comment
- # or they begin with multiple slashes followed by a space:
- # //////// Header comment
- match = (Search(r'[=/-]{4,}\s*$', line[commentend:]) or
- Search(r'^/$', line[commentend:]) or
- Search(r'^!< ', line[commentend:]) or
- Search(r'^/< ', line[commentend:]) or
- Search(r'^/+ ', line[commentend:]))
- if not match:
- error(filename, linenum, 'whitespace/comments', 4,
- 'Should have a space between // and comment')
- CheckComment(line[commentpos:], filename, linenum, error)
-
- line = clean_lines.elided[linenum] # get rid of comments and strings
-
- # Don't try to do spacing checks for operator methods
- line = re.sub(r'operator(==|!=|<|<<|<=|>=|>>|>)\(', 'operator\(', line)
-
- # We allow no-spaces around = within an if: "if ( (a=Foo()) == 0 )".
- # Otherwise not. Note we only check for non-spaces on *both* sides;
- # sometimes people put non-spaces on one side when aligning ='s among
- # many lines (not that this is behavior that I approve of...)
- if Search(r'[\w.]=[\w.]', line) and not Search(r'\b(if|while) ', line):
- error(filename, linenum, 'whitespace/operators', 4,
- 'Missing spaces around =')
-
- # It's ok not to have spaces around binary operators like + - * /, but if
- # there's too little whitespace, we get concerned. It's hard to tell,
- # though, so we punt on this one for now. TODO.
-
- # You should always have whitespace around binary operators.
- #
- # Check <= and >= first to avoid false positives with < and >, then
- # check non-include lines for spacing around < and >.
- match = Search(r'[^<>=!\s](==|!=|<=|>=)[^<>=!\s]', line)
- if match:
- error(filename, linenum, 'whitespace/operators', 3,
- 'Missing spaces around %s' % match.group(1))
- # We allow no-spaces around << when used like this: 10<<20, but
- # not otherwise (particularly, not when used as streams)
- # Also ignore using ns::operator<<;
- match = Search(r'(operator|\S)(?:L|UL|ULL|l|ul|ull)?<<(\S)', line)
- if (match and
- not (match.group(1).isdigit() and match.group(2).isdigit()) and
- not (match.group(1) == 'operator' and match.group(2) == ';')):
- error(filename, linenum, 'whitespace/operators', 3,
- 'Missing spaces around <<')
- elif not Match(r'#.*include', line):
- # Avoid false positives on ->
- reduced_line = line.replace('->', '')
-
- # Look for < that is not surrounded by spaces. This is only
- # triggered if both sides are missing spaces, even though
- # technically should should flag if at least one side is missing a
- # space. This is done to avoid some false positives with shifts.
- match = Search(r'[^\s<]<([^\s=<].*)', reduced_line)
- if (match and
- not FindNextMatchingAngleBracket(clean_lines, linenum, match.group(1))):
- error(filename, linenum, 'whitespace/operators', 3,
- 'Missing spaces around <')
-
- # Look for > that is not surrounded by spaces. Similar to the
- # above, we only trigger if both sides are missing spaces to avoid
- # false positives with shifts.
- match = Search(r'^(.*[^\s>])>[^\s=>]', reduced_line)
- if (match and
- not FindPreviousMatchingAngleBracket(clean_lines, linenum,
- match.group(1))):
- error(filename, linenum, 'whitespace/operators', 3,
- 'Missing spaces around >')
-
- # We allow no-spaces around >> for almost anything. This is because
- # C++11 allows ">>" to close nested templates, which accounts for
- # most cases when ">>" is not followed by a space.
- #
- # We still warn on ">>" followed by alpha character, because that is
- # likely due to ">>" being used for right shifts, e.g.:
- # value >> alpha
- #
- # When ">>" is used to close templates, the alphanumeric letter that
- # follows would be part of an identifier, and there should still be
- # a space separating the template type and the identifier.
- # type<type<type>> alpha
- match = Search(r'>>[a-zA-Z_]', line)
- if match:
- error(filename, linenum, 'whitespace/operators', 3,
- 'Missing spaces around >>')
-
- # There shouldn't be space around unary operators
- match = Search(r'(!\s|~\s|[\s]--[\s;]|[\s]\+\+[\s;])', line)
- if match:
- error(filename, linenum, 'whitespace/operators', 4,
- 'Extra space for operator %s' % match.group(1))
-
- # A pet peeve of mine: no spaces after an if, while, switch, or for
- match = Search(r' (if\(|for\(|while\(|switch\()', line)
- if match:
- error(filename, linenum, 'whitespace/parens', 5,
- 'Missing space before ( in %s' % match.group(1))
-
- # For if/for/while/switch, the left and right parens should be
- # consistent about how many spaces are inside the parens, and
- # there should either be zero or one spaces inside the parens.
- # We don't want: "if ( foo)" or "if ( foo )".
- # Exception: "for ( ; foo; bar)" and "for (foo; bar; )" are allowed.
- match = Search(r'\b(if|for|while|switch)\s*'
- r'\(([ ]*)(.).*[^ ]+([ ]*)\)\s*{\s*$',
- line)
- if match:
- if len(match.group(2)) != len(match.group(4)):
- if not (match.group(3) == ';' and
- len(match.group(2)) == 1 + len(match.group(4)) or
- not match.group(2) and Search(r'\bfor\s*\(.*; \)', line)):
- error(filename, linenum, 'whitespace/parens', 5,
- 'Mismatching spaces inside () in %s' % match.group(1))
- if len(match.group(2)) not in [0, 1]:
- error(filename, linenum, 'whitespace/parens', 5,
- 'Should have zero or one spaces inside ( and ) in %s' %
- match.group(1))
-
- # You should always have a space after a comma (either as fn arg or operator)
- #
- # This does not apply when the non-space character following the
- # comma is another comma, since the only time when that happens is
- # for empty macro arguments.
- #
- # We run this check in two passes: first pass on elided lines to
- # verify that lines contain missing whitespaces, second pass on raw
- # lines to confirm that those missing whitespaces are not due to
- # elided comments.
- if Search(r',[^,\s]', line) and Search(r',[^,\s]', raw[linenum]):
- error(filename, linenum, 'whitespace/comma', 3,
- 'Missing space after ,')
-
- # You should always have a space after a semicolon
- # except for few corner cases
- # TODO(unknown): clarify if 'if (1) { return 1;}' is requires one more
- # space after ;
- if Search(r';[^\s};\\)/]', line):
- error(filename, linenum, 'whitespace/semicolon', 3,
- 'Missing space after ;')
-
- # Next we will look for issues with function calls.
- CheckSpacingForFunctionCall(filename, line, linenum, error)
-
- # Except after an opening paren, or after another opening brace (in case of
- # an initializer list, for instance), you should have spaces before your
- # braces. And since you should never have braces at the beginning of a line,
- # this is an easy test.
- match = Match(r'^(.*[^ ({]){', line)
- if match:
- # Try a bit harder to check for brace initialization. This
- # happens in one of the following forms:
- # Constructor() : initializer_list_{} { ... }
- # Constructor{}.MemberFunction()
- # Type variable{};
- # FunctionCall(type{}, ...);
- # LastArgument(..., type{});
- # LOG(INFO) << type{} << " ...";
- # map_of_type[{...}] = ...;
- #
- # We check for the character following the closing brace, and
- # silence the warning if it's one of those listed above, i.e.
- # "{.;,)<]".
- #
- # To account for nested initializer list, we allow any number of
- # closing braces up to "{;,)<". We can't simply silence the
- # warning on first sight of closing brace, because that would
- # cause false negatives for things that are not initializer lists.
- # Silence this: But not this:
- # Outer{ if (...) {
- # Inner{...} if (...){ // Missing space before {
- # }; }
- #
- # There is a false negative with this approach if people inserted
- # spurious semicolons, e.g. "if (cond){};", but we will catch the
- # spurious semicolon with a separate check.
- (endline, endlinenum, endpos) = CloseExpression(
- clean_lines, linenum, len(match.group(1)))
- trailing_text = ''
- if endpos > -1:
- trailing_text = endline[endpos:]
- for offset in xrange(endlinenum + 1,
- min(endlinenum + 3, clean_lines.NumLines() - 1)):
- trailing_text += clean_lines.elided[offset]
- if not Match(r'^[\s}]*[{.;,)<\]]', trailing_text):
- error(filename, linenum, 'whitespace/braces', 5,
- 'Missing space before {')
-
- # Make sure '} else {' has spaces.
- if Search(r'}else', line):
- error(filename, linenum, 'whitespace/braces', 5,
- 'Missing space before else')
-
- # You shouldn't have spaces before your brackets, except maybe after
- # 'delete []' or 'new char * []'.
- if Search(r'\w\s+\[', line) and not Search(r'delete\s+\[', line):
- error(filename, linenum, 'whitespace/braces', 5,
- 'Extra space before [')
-
- # You shouldn't have a space before a semicolon at the end of the line.
- # There's a special case for "for" since the style guide allows space before
- # the semicolon there.
- if Search(r':\s*;\s*$', line):
- error(filename, linenum, 'whitespace/semicolon', 5,
- 'Semicolon defining empty statement. Use {} instead.')
- elif Search(r'^\s*;\s*$', line):
- error(filename, linenum, 'whitespace/semicolon', 5,
- 'Line contains only semicolon. If this should be an empty statement, '
- 'use {} instead.')
- elif (Search(r'\s+;\s*$', line) and
- not Search(r'\bfor\b', line)):
- error(filename, linenum, 'whitespace/semicolon', 5,
- 'Extra space before last semicolon. If this should be an empty '
- 'statement, use {} instead.')
-
- # In range-based for, we wanted spaces before and after the colon, but
- # not around "::" tokens that might appear.
- if (Search('for *\(.*[^:]:[^: ]', line) or
- Search('for *\(.*[^: ]:[^:]', line)):
- error(filename, linenum, 'whitespace/forcolon', 2,
- 'Missing space around colon in range-based for loop')
-
-
-def CheckSectionSpacing(filename, clean_lines, class_info, linenum, error):
- """Checks for additional blank line issues related to sections.
-
- Currently the only thing checked here is blank line before protected/private.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- class_info: A _ClassInfo objects.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- # Skip checks if the class is small, where small means 25 lines or less.
- # 25 lines seems like a good cutoff since that's the usual height of
- # terminals, and any class that can't fit in one screen can't really
- # be considered "small".
- #
- # Also skip checks if we are on the first line. This accounts for
- # classes that look like
- # class Foo { public: ... };
- #
- # If we didn't find the end of the class, last_line would be zero,
- # and the check will be skipped by the first condition.
- if (class_info.last_line - class_info.starting_linenum <= 24 or
- linenum <= class_info.starting_linenum):
- return
-
- matched = Match(r'\s*(public|protected|private):', clean_lines.lines[linenum])
- if matched:
- # Issue warning if the line before public/protected/private was
- # not a blank line, but don't do this if the previous line contains
- # "class" or "struct". This can happen two ways:
- # - We are at the beginning of the class.
- # - We are forward-declaring an inner class that is semantically
- # private, but needed to be public for implementation reasons.
- # Also ignores cases where the previous line ends with a backslash as can be
- # common when defining classes in C macros.
- prev_line = clean_lines.lines[linenum - 1]
- if (not IsBlankLine(prev_line) and
- not Search(r'\b(class|struct)\b', prev_line) and
- not Search(r'\\$', prev_line)):
- # Try a bit harder to find the beginning of the class. This is to
- # account for multi-line base-specifier lists, e.g.:
- # class Derived
- # : public Base {
- end_class_head = class_info.starting_linenum
- for i in range(class_info.starting_linenum, linenum):
- if Search(r'\{\s*$', clean_lines.lines[i]):
- end_class_head = i
- break
- if end_class_head < linenum - 1:
- error(filename, linenum, 'whitespace/blank_line', 3,
- '"%s:" should be preceded by a blank line' % matched.group(1))
-
-
-def GetPreviousNonBlankLine(clean_lines, linenum):
- """Return the most recent non-blank line and its line number.
-
- Args:
- clean_lines: A CleansedLines instance containing the file contents.
- linenum: The number of the line to check.
-
- Returns:
- A tuple with two elements. The first element is the contents of the last
- non-blank line before the current line, or the empty string if this is the
- first non-blank line. The second is the line number of that line, or -1
- if this is the first non-blank line.
- """
-
- prevlinenum = linenum - 1
- while prevlinenum >= 0:
- prevline = clean_lines.elided[prevlinenum]
- if not IsBlankLine(prevline): # if not a blank line...
- return (prevline, prevlinenum)
- prevlinenum -= 1
- return ('', -1)
-
-
-def CheckBraces(filename, clean_lines, linenum, error):
- """Looks for misplaced braces (e.g. at the end of line).
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
-
- line = clean_lines.elided[linenum] # get rid of comments and strings
-
- if Match(r'\s*{\s*$', line):
- # We allow an open brace to start a line in the case where someone is using
- # braces in a block to explicitly create a new scope, which is commonly used
- # to control the lifetime of stack-allocated variables. Braces are also
- # used for brace initializers inside function calls. We don't detect this
- # perfectly: we just don't complain if the last non-whitespace character on
- # the previous non-blank line is ',', ';', ':', '(', '{', or '}', or if the
- # previous line starts a preprocessor block.
- prevline = GetPreviousNonBlankLine(clean_lines, linenum)[0]
- if (not Search(r'[,;:}{(]\s*$', prevline) and
- not Match(r'\s*#', prevline)):
- error(filename, linenum, 'whitespace/braces', 4,
- '{ should almost always be at the end of the previous line')
-
- # An else clause should be on the same line as the preceding closing brace.
- if Match(r'\s*else\s*', line):
- prevline = GetPreviousNonBlankLine(clean_lines, linenum)[0]
- if Match(r'\s*}\s*$', prevline):
- error(filename, linenum, 'whitespace/newline', 4,
- 'An else should appear on the same line as the preceding }')
-
- # If braces come on one side of an else, they should be on both.
- # However, we have to worry about "else if" that spans multiple lines!
- if Search(r'}\s*else[^{]*$', line) or Match(r'[^}]*else\s*{', line):
- if Search(r'}\s*else if([^{]*)$', line): # could be multi-line if
- # find the ( after the if
- pos = line.find('else if')
- pos = line.find('(', pos)
- if pos > 0:
- (endline, _, endpos) = CloseExpression(clean_lines, linenum, pos)
- if endline[endpos:].find('{') == -1: # must be brace after if
- error(filename, linenum, 'readability/braces', 5,
- 'If an else has a brace on one side, it should have it on both')
- else: # common case: else not followed by a multi-line if
- error(filename, linenum, 'readability/braces', 5,
- 'If an else has a brace on one side, it should have it on both')
-
- # Likewise, an else should never have the else clause on the same line
- if Search(r'\belse [^\s{]', line) and not Search(r'\belse if\b', line):
- error(filename, linenum, 'whitespace/newline', 4,
- 'Else clause should never be on same line as else (use 2 lines)')
-
- # In the same way, a do/while should never be on one line
- if Match(r'\s*do [^\s{]', line):
- error(filename, linenum, 'whitespace/newline', 4,
- 'do/while clauses should not be on a single line')
-
- # Block bodies should not be followed by a semicolon. Due to C++11
- # brace initialization, there are more places where semicolons are
- # required than not, so we use a whitelist approach to check these
- # rather than a blacklist. These are the places where "};" should
- # be replaced by just "}":
- # 1. Some flavor of block following closing parenthesis:
- # for (;;) {};
- # while (...) {};
- # switch (...) {};
- # Function(...) {};
- # if (...) {};
- # if (...) else if (...) {};
- #
- # 2. else block:
- # if (...) else {};
- #
- # 3. const member function:
- # Function(...) const {};
- #
- # 4. Block following some statement:
- # x = 42;
- # {};
- #
- # 5. Block at the beginning of a function:
- # Function(...) {
- # {};
- # }
- #
- # Note that naively checking for the preceding "{" will also match
- # braces inside multi-dimensional arrays, but this is fine since
- # that expression will not contain semicolons.
- #
- # 6. Block following another block:
- # while (true) {}
- # {};
- #
- # 7. End of namespaces:
- # namespace {};
- #
- # These semicolons seems far more common than other kinds of
- # redundant semicolons, possibly due to people converting classes
- # to namespaces. For now we do not warn for this case.
- #
- # Try matching case 1 first.
- match = Match(r'^(.*\)\s*)\{', line)
- if match:
- # Matched closing parenthesis (case 1). Check the token before the
- # matching opening parenthesis, and don't warn if it looks like a
- # macro. This avoids these false positives:
- # - macro that defines a base class
- # - multi-line macro that defines a base class
- # - macro that defines the whole class-head
- #
- # But we still issue warnings for macros that we know are safe to
- # warn, specifically:
- # - TEST, TEST_F, TEST_P, MATCHER, MATCHER_P
- # - TYPED_TEST
- # - INTERFACE_DEF
- # - EXCLUSIVE_LOCKS_REQUIRED, SHARED_LOCKS_REQUIRED, LOCKS_EXCLUDED:
- #
- # We implement a whitelist of safe macros instead of a blacklist of
- # unsafe macros, even though the latter appears less frequently in
- # google code and would have been easier to implement. This is because
- # the downside for getting the whitelist wrong means some extra
- # semicolons, while the downside for getting the blacklist wrong
- # would result in compile errors.
- #
- # In addition to macros, we also don't want to warn on compound
- # literals.
- closing_brace_pos = match.group(1).rfind(')')
- opening_parenthesis = ReverseCloseExpression(
- clean_lines, linenum, closing_brace_pos)
- if opening_parenthesis[2] > -1:
- line_prefix = opening_parenthesis[0][0:opening_parenthesis[2]]
- macro = Search(r'\b([A-Z_]+)\s*$', line_prefix)
- if ((macro and
- macro.group(1) not in (
- 'TEST', 'TEST_F', 'MATCHER', 'MATCHER_P', 'TYPED_TEST',
- 'EXCLUSIVE_LOCKS_REQUIRED', 'SHARED_LOCKS_REQUIRED',
- 'LOCKS_EXCLUDED', 'INTERFACE_DEF')) or
- Search(r'\s+=\s*$', line_prefix)):
- match = None
-
- else:
- # Try matching cases 2-3.
- match = Match(r'^(.*(?:else|\)\s*const)\s*)\{', line)
- if not match:
- # Try matching cases 4-6. These are always matched on separate lines.
- #
- # Note that we can't simply concatenate the previous line to the
- # current line and do a single match, otherwise we may output
- # duplicate warnings for the blank line case:
- # if (cond) {
- # // blank line
- # }
- prevline = GetPreviousNonBlankLine(clean_lines, linenum)[0]
- if prevline and Search(r'[;{}]\s*$', prevline):
- match = Match(r'^(\s*)\{', line)
-
- # Check matching closing brace
- if match:
- (endline, endlinenum, endpos) = CloseExpression(
- clean_lines, linenum, len(match.group(1)))
- if endpos > -1 and Match(r'^\s*;', endline[endpos:]):
- # Current {} pair is eligible for semicolon check, and we have found
- # the redundant semicolon, output warning here.
- #
- # Note: because we are scanning forward for opening braces, and
- # outputting warnings for the matching closing brace, if there are
- # nested blocks with trailing semicolons, we will get the error
- # messages in reversed order.
- error(filename, endlinenum, 'readability/braces', 4,
- "You don't need a ; after a }")
-
-
-def CheckEmptyBlockBody(filename, clean_lines, linenum, error):
- """Look for empty loop/conditional body with only a single semicolon.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
-
- # Search for loop keywords at the beginning of the line. Because only
- # whitespaces are allowed before the keywords, this will also ignore most
- # do-while-loops, since those lines should start with closing brace.
- #
- # We also check "if" blocks here, since an empty conditional block
- # is likely an error.
- line = clean_lines.elided[linenum]
- matched = Match(r'\s*(for|while|if)\s*\(', line)
- if matched:
- # Find the end of the conditional expression
- (end_line, end_linenum, end_pos) = CloseExpression(
- clean_lines, linenum, line.find('('))
-
- # Output warning if what follows the condition expression is a semicolon.
- # No warning for all other cases, including whitespace or newline, since we
- # have a separate check for semicolons preceded by whitespace.
- if end_pos >= 0 and Match(r';', end_line[end_pos:]):
- if matched.group(1) == 'if':
- error(filename, end_linenum, 'whitespace/empty_conditional_body', 5,
- 'Empty conditional bodies should use {}')
- else:
- error(filename, end_linenum, 'whitespace/empty_loop_body', 5,
- 'Empty loop bodies should use {} or continue')
-
-
-def CheckCheck(filename, clean_lines, linenum, error):
- """Checks the use of CHECK and EXPECT macros.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
-
- # Decide the set of replacement macros that should be suggested
- lines = clean_lines.elided
- check_macro = None
- start_pos = -1
- for macro in _CHECK_MACROS:
- i = lines[linenum].find(macro)
- if i >= 0:
- check_macro = macro
-
- # Find opening parenthesis. Do a regular expression match here
- # to make sure that we are matching the expected CHECK macro, as
- # opposed to some other macro that happens to contain the CHECK
- # substring.
- matched = Match(r'^(.*\b' + check_macro + r'\s*)\(', lines[linenum])
- if not matched:
- continue
- start_pos = len(matched.group(1))
- break
- if not check_macro or start_pos < 0:
- # Don't waste time here if line doesn't contain 'CHECK' or 'EXPECT'
- return
-
- # Find end of the boolean expression by matching parentheses
- (last_line, end_line, end_pos) = CloseExpression(
- clean_lines, linenum, start_pos)
- if end_pos < 0:
- return
- if linenum == end_line:
- expression = lines[linenum][start_pos + 1:end_pos - 1]
- else:
- expression = lines[linenum][start_pos + 1:]
- for i in xrange(linenum + 1, end_line):
- expression += lines[i]
- expression += last_line[0:end_pos - 1]
-
- # Parse expression so that we can take parentheses into account.
- # This avoids false positives for inputs like "CHECK((a < 4) == b)",
- # which is not replaceable by CHECK_LE.
- lhs = ''
- rhs = ''
- operator = None
- while expression:
- matched = Match(r'^\s*(<<|<<=|>>|>>=|->\*|->|&&|\|\||'
- r'==|!=|>=|>|<=|<|\()(.*)$', expression)
- if matched:
- token = matched.group(1)
- if token == '(':
- # Parenthesized operand
- expression = matched.group(2)
- (end, _) = FindEndOfExpressionInLine(expression, 0, 1, '(', ')')
- if end < 0:
- return # Unmatched parenthesis
- lhs += '(' + expression[0:end]
- expression = expression[end:]
- elif token in ('&&', '||'):
- # Logical and/or operators. This means the expression
- # contains more than one term, for example:
- # CHECK(42 < a && a < b);
- #
- # These are not replaceable with CHECK_LE, so bail out early.
- return
- elif token in ('<<', '<<=', '>>', '>>=', '->*', '->'):
- # Non-relational operator
- lhs += token
- expression = matched.group(2)
- else:
- # Relational operator
- operator = token
- rhs = matched.group(2)
- break
- else:
- # Unparenthesized operand. Instead of appending to lhs one character
- # at a time, we do another regular expression match to consume several
- # characters at once if possible. Trivial benchmark shows that this
- # is more efficient when the operands are longer than a single
- # character, which is generally the case.
- matched = Match(r'^([^-=!<>()&|]+)(.*)$', expression)
- if not matched:
- matched = Match(r'^(\s*\S)(.*)$', expression)
- if not matched:
- break
- lhs += matched.group(1)
- expression = matched.group(2)
-
- # Only apply checks if we got all parts of the boolean expression
- if not (lhs and operator and rhs):
- return
-
- # Check that rhs do not contain logical operators. We already know
- # that lhs is fine since the loop above parses out && and ||.
- if rhs.find('&&') > -1 or rhs.find('||') > -1:
- return
-
- # At least one of the operands must be a constant literal. This is
- # to avoid suggesting replacements for unprintable things like
- # CHECK(variable != iterator)
- #
- # The following pattern matches decimal, hex integers, strings, and
- # characters (in that order).
- lhs = lhs.strip()
- rhs = rhs.strip()
- match_constant = r'^([-+]?(\d+|0[xX][0-9a-fA-F]+)[lLuU]{0,3}|".*"|\'.*\')$'
- if Match(match_constant, lhs) or Match(match_constant, rhs):
- # Note: since we know both lhs and rhs, we can provide a more
- # descriptive error message like:
- # Consider using CHECK_EQ(x, 42) instead of CHECK(x == 42)
- # Instead of:
- # Consider using CHECK_EQ instead of CHECK(a == b)
- #
- # We are still keeping the less descriptive message because if lhs
- # or rhs gets long, the error message might become unreadable.
- error(filename, linenum, 'readability/check', 2,
- 'Consider using %s instead of %s(a %s b)' % (
- _CHECK_REPLACEMENT[check_macro][operator],
- check_macro, operator))
-
-
-def CheckAltTokens(filename, clean_lines, linenum, error):
- """Check alternative keywords being used in boolean expressions.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- line = clean_lines.elided[linenum]
-
- # Avoid preprocessor lines
- if Match(r'^\s*#', line):
- return
-
- # Last ditch effort to avoid multi-line comments. This will not help
- # if the comment started before the current line or ended after the
- # current line, but it catches most of the false positives. At least,
- # it provides a way to workaround this warning for people who use
- # multi-line comments in preprocessor macros.
- #
- # TODO(unknown): remove this once cpplint has better support for
- # multi-line comments.
- if line.find('/*') >= 0 or line.find('*/') >= 0:
- return
-
- for match in _ALT_TOKEN_REPLACEMENT_PATTERN.finditer(line):
- error(filename, linenum, 'readability/alt_tokens', 2,
- 'Use operator %s instead of %s' % (
- _ALT_TOKEN_REPLACEMENT[match.group(1)], match.group(1)))
-
-
-def GetLineWidth(line):
- """Determines the width of the line in column positions.
-
- Args:
- line: A string, which may be a Unicode string.
-
- Returns:
- The width of the line in column positions, accounting for Unicode
- combining characters and wide characters.
- """
- if isinstance(line, unicode):
- width = 0
- for uc in unicodedata.normalize('NFC', line):
- if unicodedata.east_asian_width(uc) in ('W', 'F'):
- width += 2
- elif not unicodedata.combining(uc):
- width += 1
- return width
- else:
- return len(line)
-
-
-def CheckStyle(filename, clean_lines, linenum, file_extension, nesting_state,
- error):
- """Checks rules from the 'C++ style rules' section of cppguide.html.
-
- Most of these rules are hard to test (naming, comment style), but we
- do what we can. In particular we check for 2-space indents, line lengths,
- tab usage, spaces inside code, etc.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- file_extension: The extension (without the dot) of the filename.
- nesting_state: A _NestingState instance which maintains information about
- the current stack of nested blocks being parsed.
- error: The function to call with any errors found.
- """
-
- # Don't use "elided" lines here, otherwise we can't check commented lines.
- # Don't want to use "raw" either, because we don't want to check inside C++11
- # raw strings,
- raw_lines = clean_lines.lines_without_raw_strings
- line = raw_lines[linenum]
-
- if line.find('\t') != -1:
- error(filename, linenum, 'whitespace/tab', 1,
- 'Tab found; better to use spaces')
-
- # One or three blank spaces at the beginning of the line is weird; it's
- # hard to reconcile that with 2-space indents.
- # NOTE: here are the conditions rob pike used for his tests. Mine aren't
- # as sophisticated, but it may be worth becoming so: RLENGTH==initial_spaces
- # if(RLENGTH > 20) complain = 0;
- # if(match($0, " +(error|private|public|protected):")) complain = 0;
- # if(match(prev, "&& *$")) complain = 0;
- # if(match(prev, "\\|\\| *$")) complain = 0;
- # if(match(prev, "[\",=><] *$")) complain = 0;
- # if(match($0, " <<")) complain = 0;
- # if(match(prev, " +for \\(")) complain = 0;
- # if(prevodd && match(prevprev, " +for \\(")) complain = 0;
- initial_spaces = 0
- cleansed_line = clean_lines.elided[linenum]
- while initial_spaces < len(line) and line[initial_spaces] == ' ':
- initial_spaces += 1
- if line and line[-1].isspace():
- error(filename, linenum, 'whitespace/end_of_line', 4,
- 'Line ends in whitespace. Consider deleting these extra spaces.')
- # There are certain situations we allow one space, notably for section labels
- elif ((initial_spaces == 1 or initial_spaces == 3) and
- not Match(r'\s*\w+\s*:\s*$', cleansed_line)):
- error(filename, linenum, 'whitespace/indent', 3,
- 'Weird number of spaces at line-start. '
- 'Are you using a 2-space indent?')
-
- # Check if the line is a header guard.
- is_header_guard = False
- if file_extension == 'h':
- cppvar = GetHeaderGuardCPPVariable(filename)
- if (line.startswith('#ifndef %s' % cppvar) or
- line.startswith('#define %s' % cppvar) or
- line.startswith('#endif // %s' % cppvar)):
- is_header_guard = True
- # #include lines and header guards can be long, since there's no clean way to
- # split them.
- #
- # URLs can be long too. It's possible to split these, but it makes them
- # harder to cut&paste.
- #
- # The "$Id:...$" comment may also get very long without it being the
- # developers fault.
- if (not line.startswith('#include') and not is_header_guard and
- not Match(r'^\s*//.*http(s?)://\S*$', line) and
- not Match(r'^// \$Id:.*#[0-9]+ \$$', line)):
- line_width = GetLineWidth(line)
- extended_length = int((_line_length * 1.25))
- if line_width > extended_length:
- error(filename, linenum, 'whitespace/line_length', 4,
- 'Lines should very rarely be longer than %i characters' %
- extended_length)
- elif line_width > _line_length:
- error(filename, linenum, 'whitespace/line_length', 2,
- 'Lines should be <= %i characters long' % _line_length)
-
- if (cleansed_line.count(';') > 1 and
- # for loops are allowed two ;'s (and may run over two lines).
- cleansed_line.find('for') == -1 and
- (GetPreviousNonBlankLine(clean_lines, linenum)[0].find('for') == -1 or
- GetPreviousNonBlankLine(clean_lines, linenum)[0].find(';') != -1) and
- # It's ok to have many commands in a switch case that fits in 1 line
- not ((cleansed_line.find('case ') != -1 or
- cleansed_line.find('default:') != -1) and
- cleansed_line.find('break;') != -1)):
- error(filename, linenum, 'whitespace/newline', 0,
- 'More than one command on the same line')
-
- # Some more style checks
- CheckBraces(filename, clean_lines, linenum, error)
- CheckEmptyBlockBody(filename, clean_lines, linenum, error)
- CheckAccess(filename, clean_lines, linenum, nesting_state, error)
- CheckSpacing(filename, clean_lines, linenum, nesting_state, error)
- CheckCheck(filename, clean_lines, linenum, error)
- CheckAltTokens(filename, clean_lines, linenum, error)
- classinfo = nesting_state.InnermostClass()
- if classinfo:
- CheckSectionSpacing(filename, clean_lines, classinfo, linenum, error)
-
-
-_RE_PATTERN_INCLUDE_NEW_STYLE = re.compile(r'#include +"[^/]+\.h"')
-_RE_PATTERN_INCLUDE = re.compile(r'^\s*#\s*include\s*([<"])([^>"]*)[>"].*$')
-# Matches the first component of a filename delimited by -s and _s. That is:
-# _RE_FIRST_COMPONENT.match('foo').group(0) == 'foo'
-# _RE_FIRST_COMPONENT.match('foo.cc').group(0) == 'foo'
-# _RE_FIRST_COMPONENT.match('foo-bar_baz.cc').group(0) == 'foo'
-# _RE_FIRST_COMPONENT.match('foo_bar-baz.cc').group(0) == 'foo'
-_RE_FIRST_COMPONENT = re.compile(r'^[^-_.]+')
-
-
-def _DropCommonSuffixes(filename):
- """Drops common suffixes like _test.cc or -inl.h from filename.
-
- For example:
- >>> _DropCommonSuffixes('foo/foo-inl.h')
- 'foo/foo'
- >>> _DropCommonSuffixes('foo/bar/foo.cc')
- 'foo/bar/foo'
- >>> _DropCommonSuffixes('foo/foo_internal.h')
- 'foo/foo'
- >>> _DropCommonSuffixes('foo/foo_unusualinternal.h')
- 'foo/foo_unusualinternal'
-
- Args:
- filename: The input filename.
-
- Returns:
- The filename with the common suffix removed.
- """
- for suffix in ('test.cc', 'regtest.cc', 'unittest.cc',
- 'inl.h', 'impl.h', 'internal.h'):
- if (filename.endswith(suffix) and len(filename) > len(suffix) and
- filename[-len(suffix) - 1] in ('-', '_')):
- return filename[:-len(suffix) - 1]
- return os.path.splitext(filename)[0]
-
-
-def _IsTestFilename(filename):
- """Determines if the given filename has a suffix that identifies it as a test.
-
- Args:
- filename: The input filename.
-
- Returns:
- True if 'filename' looks like a test, False otherwise.
- """
- if (filename.endswith('_test.cc') or
- filename.endswith('_unittest.cc') or
- filename.endswith('_regtest.cc')):
- return True
- else:
- return False
-
-
-def _ClassifyInclude(fileinfo, include, is_system):
- """Figures out what kind of header 'include' is.
-
- Args:
- fileinfo: The current file cpplint is running over. A FileInfo instance.
- include: The path to a #included file.
- is_system: True if the #include used <> rather than "".
-
- Returns:
- One of the _XXX_HEADER constants.
-
- For example:
- >>> _ClassifyInclude(FileInfo('foo/foo.cc'), 'stdio.h', True)
- _C_SYS_HEADER
- >>> _ClassifyInclude(FileInfo('foo/foo.cc'), 'string', True)
- _CPP_SYS_HEADER
- >>> _ClassifyInclude(FileInfo('foo/foo.cc'), 'foo/foo.h', False)
- _LIKELY_MY_HEADER
- >>> _ClassifyInclude(FileInfo('foo/foo_unknown_extension.cc'),
- ... 'bar/foo_other_ext.h', False)
- _POSSIBLE_MY_HEADER
- >>> _ClassifyInclude(FileInfo('foo/foo.cc'), 'foo/bar.h', False)
- _OTHER_HEADER
- """
- # This is a list of all standard c++ header files, except
- # those already checked for above.
- is_cpp_h = include in _CPP_HEADERS
-
- if is_system:
- if is_cpp_h:
- return _CPP_SYS_HEADER
- else:
- return _C_SYS_HEADER
-
- # If the target file and the include we're checking share a
- # basename when we drop common extensions, and the include
- # lives in . , then it's likely to be owned by the target file.
- target_dir, target_base = (
- os.path.split(_DropCommonSuffixes(fileinfo.RepositoryName())))
- include_dir, include_base = os.path.split(_DropCommonSuffixes(include))
- if target_base == include_base and (
- include_dir == target_dir or
- include_dir == os.path.normpath(target_dir + '/../public')):
- return _LIKELY_MY_HEADER
-
- # If the target and include share some initial basename
- # component, it's possible the target is implementing the
- # include, so it's allowed to be first, but we'll never
- # complain if it's not there.
- target_first_component = _RE_FIRST_COMPONENT.match(target_base)
- include_first_component = _RE_FIRST_COMPONENT.match(include_base)
- if (target_first_component and include_first_component and
- target_first_component.group(0) ==
- include_first_component.group(0)):
- return _POSSIBLE_MY_HEADER
-
- return _OTHER_HEADER
-
-
-
-def CheckIncludeLine(filename, clean_lines, linenum, include_state, error):
- """Check rules that are applicable to #include lines.
-
- Strings on #include lines are NOT removed from elided line, to make
- certain tasks easier. However, to prevent false positives, checks
- applicable to #include lines in CheckLanguage must be put here.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- include_state: An _IncludeState instance in which the headers are inserted.
- error: The function to call with any errors found.
- """
- fileinfo = FileInfo(filename)
-
- line = clean_lines.lines[linenum]
-
- # "include" should use the new style "foo/bar.h" instead of just "bar.h"
- if _RE_PATTERN_INCLUDE_NEW_STYLE.search(line):
- error(filename, linenum, 'build/include', 4,
- 'Include the directory when naming .h files')
-
- # we shouldn't include a file more than once. actually, there are a
- # handful of instances where doing so is okay, but in general it's
- # not.
- match = _RE_PATTERN_INCLUDE.search(line)
- if match:
- include = match.group(2)
- is_system = (match.group(1) == '<')
- if include in include_state:
- error(filename, linenum, 'build/include', 4,
- '"%s" already included at %s:%s' %
- (include, filename, include_state[include]))
- else:
- include_state[include] = linenum
-
- # We want to ensure that headers appear in the right order:
- # 1) for foo.cc, foo.h (preferred location)
- # 2) c system files
- # 3) cpp system files
- # 4) for foo.cc, foo.h (deprecated location)
- # 5) other google headers
- #
- # We classify each include statement as one of those 5 types
- # using a number of techniques. The include_state object keeps
- # track of the highest type seen, and complains if we see a
- # lower type after that.
- error_message = include_state.CheckNextIncludeOrder(
- _ClassifyInclude(fileinfo, include, is_system))
- if error_message:
- error(filename, linenum, 'build/include_order', 4,
- '%s. Should be: %s.h, c system, c++ system, other.' %
- (error_message, fileinfo.BaseName()))
- canonical_include = include_state.CanonicalizeAlphabeticalOrder(include)
- if not include_state.IsInAlphabeticalOrder(
- clean_lines, linenum, canonical_include):
- error(filename, linenum, 'build/include_alpha', 4,
- 'Include "%s" not in alphabetical order' % include)
- include_state.SetLastHeader(canonical_include)
-
- # Look for any of the stream classes that are part of standard C++.
- match = _RE_PATTERN_INCLUDE.match(line)
- if match:
- include = match.group(2)
- if Match(r'(f|ind|io|i|o|parse|pf|stdio|str|)?stream$', include):
- # Many unit tests use cout, so we exempt them.
- if not _IsTestFilename(filename):
- error(filename, linenum, 'readability/streams', 3,
- 'Streams are highly discouraged.')
-
-
-def _GetTextInside(text, start_pattern):
- r"""Retrieves all the text between matching open and close parentheses.
-
- Given a string of lines and a regular expression string, retrieve all the text
- following the expression and between opening punctuation symbols like
- (, [, or {, and the matching close-punctuation symbol. This properly nested
- occurrences of the punctuations, so for the text like
- printf(a(), b(c()));
- a call to _GetTextInside(text, r'printf\(') will return 'a(), b(c())'.
- start_pattern must match string having an open punctuation symbol at the end.
-
- Args:
- text: The lines to extract text. Its comments and strings must be elided.
- It can be single line and can span multiple lines.
- start_pattern: The regexp string indicating where to start extracting
- the text.
- Returns:
- The extracted text.
- None if either the opening string or ending punctuation could not be found.
- """
- # TODO(sugawarayu): Audit cpplint.py to see what places could be profitably
- # rewritten to use _GetTextInside (and use inferior regexp matching today).
-
- # Give opening punctuations to get the matching close-punctuations.
- matching_punctuation = {'(': ')', '{': '}', '[': ']'}
- closing_punctuation = set(matching_punctuation.itervalues())
-
- # Find the position to start extracting text.
- match = re.search(start_pattern, text, re.M)
- if not match: # start_pattern not found in text.
- return None
- start_position = match.end(0)
-
- assert start_position > 0, (
- 'start_pattern must ends with an opening punctuation.')
- assert text[start_position - 1] in matching_punctuation, (
- 'start_pattern must ends with an opening punctuation.')
- # Stack of closing punctuations we expect to have in text after position.
- punctuation_stack = [matching_punctuation[text[start_position - 1]]]
- position = start_position
- while punctuation_stack and position < len(text):
- if text[position] == punctuation_stack[-1]:
- punctuation_stack.pop()
- elif text[position] in closing_punctuation:
- # A closing punctuation without matching opening punctuations.
- return None
- elif text[position] in matching_punctuation:
- punctuation_stack.append(matching_punctuation[text[position]])
- position += 1
- if punctuation_stack:
- # Opening punctuations left without matching close-punctuations.
- return None
- # punctuations match.
- return text[start_position:position - 1]
-
-
-# Patterns for matching call-by-reference parameters.
-#
-# Supports nested templates up to 2 levels deep using this messy pattern:
-# < (?: < (?: < [^<>]*
-# >
-# | [^<>] )*
-# >
-# | [^<>] )*
-# >
-_RE_PATTERN_IDENT = r'[_a-zA-Z]\w*' # =~ [[:alpha:]][[:alnum:]]*
-_RE_PATTERN_TYPE = (
- r'(?:const\s+)?(?:typename\s+|class\s+|struct\s+|union\s+|enum\s+)?'
- r'(?:\w|'
- r'\s*<(?:<(?:<[^<>]*>|[^<>])*>|[^<>])*>|'
- r'::)+')
-# A call-by-reference parameter ends with '& identifier'.
-_RE_PATTERN_REF_PARAM = re.compile(
- r'(' + _RE_PATTERN_TYPE + r'(?:\s*(?:\bconst\b|[*]))*\s*'
- r'&\s*' + _RE_PATTERN_IDENT + r')\s*(?:=[^,()]+)?[,)]')
-# A call-by-const-reference parameter either ends with 'const& identifier'
-# or looks like 'const type& identifier' when 'type' is atomic.
-_RE_PATTERN_CONST_REF_PARAM = (
- r'(?:.*\s*\bconst\s*&\s*' + _RE_PATTERN_IDENT +
- r'|const\s+' + _RE_PATTERN_TYPE + r'\s*&\s*' + _RE_PATTERN_IDENT + r')')
-
-
-def CheckLanguage(filename, clean_lines, linenum, file_extension,
- include_state, nesting_state, error):
- """Checks rules from the 'C++ language rules' section of cppguide.html.
-
- Some of these rules are hard to test (function overloading, using
- uint32 inappropriately), but we do the best we can.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- file_extension: The extension (without the dot) of the filename.
- include_state: An _IncludeState instance in which the headers are inserted.
- nesting_state: A _NestingState instance which maintains information about
- the current stack of nested blocks being parsed.
- error: The function to call with any errors found.
- """
- # If the line is empty or consists of entirely a comment, no need to
- # check it.
- line = clean_lines.elided[linenum]
- if not line:
- return
-
- match = _RE_PATTERN_INCLUDE.search(line)
- if match:
- CheckIncludeLine(filename, clean_lines, linenum, include_state, error)
- return
-
- # Reset include state across preprocessor directives. This is meant
- # to silence warnings for conditional includes.
- if Match(r'^\s*#\s*(?:ifdef|elif|else|endif)\b', line):
- include_state.ResetSection()
-
- # Make Windows paths like Unix.
- fullname = os.path.abspath(filename).replace('\\', '/')
-
- # TODO(unknown): figure out if they're using default arguments in fn proto.
-
- # Check to see if they're using an conversion function cast.
- # I just try to capture the most common basic types, though there are more.
- # Parameterless conversion functions, such as bool(), are allowed as they are
- # probably a member operator declaration or default constructor.
- match = Search(
- r'(\bnew\s+)?\b' # Grab 'new' operator, if it's there
- r'(int|float|double|bool|char|int32|uint32|int64|uint64)'
- r'(\([^)].*)', line)
- if match:
- matched_new = match.group(1)
- matched_type = match.group(2)
- matched_funcptr = match.group(3)
-
- # gMock methods are defined using some variant of MOCK_METHODx(name, type)
- # where type may be float(), int(string), etc. Without context they are
- # virtually indistinguishable from int(x) casts. Likewise, gMock's
- # MockCallback takes a template parameter of the form return_type(arg_type),
- # which looks much like the cast we're trying to detect.
- #
- # std::function<> wrapper has a similar problem.
- #
- # Return types for function pointers also look like casts if they
- # don't have an extra space.
- if (matched_new is None and # If new operator, then this isn't a cast
- not (Match(r'^\s*MOCK_(CONST_)?METHOD\d+(_T)?\(', line) or
- Search(r'\bMockCallback<.*>', line) or
- Search(r'\bstd::function<.*>', line)) and
- not (matched_funcptr and
- Match(r'\((?:[^() ]+::\s*\*\s*)?[^() ]+\)\s*\(',
- matched_funcptr))):
- # Try a bit harder to catch gmock lines: the only place where
- # something looks like an old-style cast is where we declare the
- # return type of the mocked method, and the only time when we
- # are missing context is if MOCK_METHOD was split across
- # multiple lines. The missing MOCK_METHOD is usually one or two
- # lines back, so scan back one or two lines.
- #
- # It's not possible for gmock macros to appear in the first 2
- # lines, since the class head + section name takes up 2 lines.
- if (linenum < 2 or
- not (Match(r'^\s*MOCK_(?:CONST_)?METHOD\d+(?:_T)?\((?:\S+,)?\s*$',
- clean_lines.elided[linenum - 1]) or
- Match(r'^\s*MOCK_(?:CONST_)?METHOD\d+(?:_T)?\(\s*$',
- clean_lines.elided[linenum - 2]))):
- error(filename, linenum, 'readability/casting', 4,
- 'Using deprecated casting style. '
- 'Use static_cast<%s>(...) instead' %
- matched_type)
-
- CheckCStyleCast(filename, linenum, line, clean_lines.raw_lines[linenum],
- 'static_cast',
- r'\((int|float|double|bool|char|u?int(16|32|64))\)', error)
-
- # This doesn't catch all cases. Consider (const char * const)"hello".
- #
- # (char *) "foo" should always be a const_cast (reinterpret_cast won't
- # compile).
- if CheckCStyleCast(filename, linenum, line, clean_lines.raw_lines[linenum],
- 'const_cast', r'\((char\s?\*+\s?)\)\s*"', error):
- pass
- else:
- # Check pointer casts for other than string constants
- CheckCStyleCast(filename, linenum, line, clean_lines.raw_lines[linenum],
- 'reinterpret_cast', r'\((\w+\s?\*+\s?)\)', error)
-
- # In addition, we look for people taking the address of a cast. This
- # is dangerous -- casts can assign to temporaries, so the pointer doesn't
- # point where you think.
- match = Search(
- r'(?:&\(([^)]+)\)[\w(])|'
- r'(?:&(static|dynamic|down|reinterpret)_cast\b)', line)
- if match and match.group(1) != '*':
- error(filename, linenum, 'runtime/casting', 4,
- ('Are you taking an address of a cast? '
- 'This is dangerous: could be a temp var. '
- 'Take the address before doing the cast, rather than after'))
-
- # Create an extended_line, which is the concatenation of the current and
- # next lines, for more effective checking of code that may span more than one
- # line.
- if linenum + 1 < clean_lines.NumLines():
- extended_line = line + clean_lines.elided[linenum + 1]
- else:
- extended_line = line
-
- # Check for people declaring static/global STL strings at the top level.
- # This is dangerous because the C++ language does not guarantee that
- # globals with constructors are initialized before the first access.
- match = Match(
- r'((?:|static +)(?:|const +))string +([a-zA-Z0-9_:]+)\b(.*)',
- line)
- # Make sure it's not a function.
- # Function template specialization looks like: "string foo<Type>(...".
- # Class template definitions look like: "string Foo<Type>::Method(...".
- #
- # Also ignore things that look like operators. These are matched separately
- # because operator names cross non-word boundaries. If we change the pattern
- # above, we would decrease the accuracy of matching identifiers.
- if (match and
- not Search(r'\boperator\W', line) and
- not Match(r'\s*(<.*>)?(::[a-zA-Z0-9_]+)?\s*\(([^"]|$)', match.group(3))):
- error(filename, linenum, 'runtime/string', 4,
- 'For a static/global string constant, use a C style string instead: '
- '"%schar %s[]".' %
- (match.group(1), match.group(2)))
-
- if Search(r'\b([A-Za-z0-9_]*_)\(\1\)', line):
- error(filename, linenum, 'runtime/init', 4,
- 'You seem to be initializing a member variable with itself.')
-
- if file_extension == 'h':
- # TODO(unknown): check that 1-arg constructors are explicit.
- # How to tell it's a constructor?
- # (handled in CheckForNonStandardConstructs for now)
- # TODO(unknown): check that classes have DISALLOW_EVIL_CONSTRUCTORS
- # (level 1 error)
- pass
-
- # Check if people are using the verboten C basic types. The only exception
- # we regularly allow is "unsigned short port" for port.
- if Search(r'\bshort port\b', line):
- if not Search(r'\bunsigned short port\b', line):
- error(filename, linenum, 'runtime/int', 4,
- 'Use "unsigned short" for ports, not "short"')
- else:
- match = Search(r'\b(short|long(?! +double)|long long)\b', line)
- if match:
- error(filename, linenum, 'runtime/int', 4,
- 'Use int16/int64/etc, rather than the C type %s' % match.group(1))
-
- # When snprintf is used, the second argument shouldn't be a literal.
- match = Search(r'snprintf\s*\(([^,]*),\s*([0-9]*)\s*,', line)
- if match and match.group(2) != '0':
- # If 2nd arg is zero, snprintf is used to calculate size.
- error(filename, linenum, 'runtime/printf', 3,
- 'If you can, use sizeof(%s) instead of %s as the 2nd arg '
- 'to snprintf.' % (match.group(1), match.group(2)))
-
- # Check if some verboten C functions are being used.
- if Search(r'\bsprintf\b', line):
- error(filename, linenum, 'runtime/printf', 5,
- 'Never use sprintf. Use snprintf instead.')
- match = Search(r'\b(strcpy|strcat)\b', line)
- if match:
- error(filename, linenum, 'runtime/printf', 4,
- 'Almost always, snprintf is better than %s' % match.group(1))
-
- # Check if some verboten operator overloading is going on
- # TODO(unknown): catch out-of-line unary operator&:
- # class X {};
- # int operator&(const X& x) { return 42; } // unary operator&
- # The trick is it's hard to tell apart from binary operator&:
- # class Y { int operator&(const Y& x) { return 23; } }; // binary operator&
- if Search(r'\boperator\s*&\s*\(\s*\)', line):
- error(filename, linenum, 'runtime/operator', 4,
- 'Unary operator& is dangerous. Do not use it.')
-
- # Check for suspicious usage of "if" like
- # } if (a == b) {
- if Search(r'\}\s*if\s*\(', line):
- error(filename, linenum, 'readability/braces', 4,
- 'Did you mean "else if"? If not, start a new line for "if".')
-
- # Check for potential format string bugs like printf(foo).
- # We constrain the pattern not to pick things like DocidForPrintf(foo).
- # Not perfect but it can catch printf(foo.c_str()) and printf(foo->c_str())
- # TODO(sugawarayu): Catch the following case. Need to change the calling
- # convention of the whole function to process multiple line to handle it.
- # printf(
- # boy_this_is_a_really_long_variable_that_cannot_fit_on_the_prev_line);
- printf_args = _GetTextInside(line, r'(?i)\b(string)?printf\s*\(')
- if printf_args:
- match = Match(r'([\w.\->()]+)$', printf_args)
- if match and match.group(1) != '__VA_ARGS__':
- function_name = re.search(r'\b((?:string)?printf)\s*\(',
- line, re.I).group(1)
- error(filename, linenum, 'runtime/printf', 4,
- 'Potential format string bug. Do %s("%%s", %s) instead.'
- % (function_name, match.group(1)))
-
- # Check for potential memset bugs like memset(buf, sizeof(buf), 0).
- match = Search(r'memset\s*\(([^,]*),\s*([^,]*),\s*0\s*\)', line)
- if match and not Match(r"^''|-?[0-9]+|0x[0-9A-Fa-f]$", match.group(2)):
- error(filename, linenum, 'runtime/memset', 4,
- 'Did you mean "memset(%s, 0, %s)"?'
- % (match.group(1), match.group(2)))
-
- if Search(r'\busing namespace\b', line):
- error(filename, linenum, 'build/namespaces', 5,
- 'Do not use namespace using-directives. '
- 'Use using-declarations instead.')
-
- # Detect variable-length arrays.
- match = Match(r'\s*(.+::)?(\w+) [a-z]\w*\[(.+)];', line)
- if (match and match.group(2) != 'return' and match.group(2) != 'delete' and
- match.group(3).find(']') == -1):
- # Split the size using space and arithmetic operators as delimiters.
- # If any of the resulting tokens are not compile time constants then
- # report the error.
- tokens = re.split(r'\s|\+|\-|\*|\/|<<|>>]', match.group(3))
- is_const = True
- skip_next = False
- for tok in tokens:
- if skip_next:
- skip_next = False
- continue
-
- if Search(r'sizeof\(.+\)', tok): continue
- if Search(r'arraysize\(\w+\)', tok): continue
-
- tok = tok.lstrip('(')
- tok = tok.rstrip(')')
- if not tok: continue
- if Match(r'\d+', tok): continue
- if Match(r'0[xX][0-9a-fA-F]+', tok): continue
- if Match(r'k[A-Z0-9]\w*', tok): continue
- if Match(r'(.+::)?k[A-Z0-9]\w*', tok): continue
- if Match(r'(.+::)?[A-Z][A-Z0-9_]*', tok): continue
- # A catch all for tricky sizeof cases, including 'sizeof expression',
- # 'sizeof(*type)', 'sizeof(const type)', 'sizeof(struct StructName)'
- # requires skipping the next token because we split on ' ' and '*'.
- if tok.startswith('sizeof'):
- skip_next = True
- continue
- is_const = False
- break
- if not is_const:
- error(filename, linenum, 'runtime/arrays', 1,
- 'Do not use variable-length arrays. Use an appropriately named '
- "('k' followed by CamelCase) compile-time constant for the size.")
-
- # If DISALLOW_EVIL_CONSTRUCTORS, DISALLOW_COPY_AND_ASSIGN, or
- # DISALLOW_IMPLICIT_CONSTRUCTORS is present, then it should be the last thing
- # in the class declaration.
- match = Match(
- (r'\s*'
- r'(DISALLOW_(EVIL_CONSTRUCTORS|COPY_AND_ASSIGN|IMPLICIT_CONSTRUCTORS))'
- r'\(.*\);$'),
- line)
- if match and linenum + 1 < clean_lines.NumLines():
- next_line = clean_lines.elided[linenum + 1]
- # We allow some, but not all, declarations of variables to be present
- # in the statement that defines the class. The [\w\*,\s]* fragment of
- # the regular expression below allows users to declare instances of
- # the class or pointers to instances, but not less common types such
- # as function pointers or arrays. It's a tradeoff between allowing
- # reasonable code and avoiding trying to parse more C++ using regexps.
- if not Search(r'^\s*}[\w\*,\s]*;', next_line):
- error(filename, linenum, 'readability/constructors', 3,
- match.group(1) + ' should be the last thing in the class')
-
- # Check for use of unnamed namespaces in header files. Registration
- # macros are typically OK, so we allow use of "namespace {" on lines
- # that end with backslashes.
- if (file_extension == 'h'
- and Search(r'\bnamespace\s*{', line)
- and line[-1] != '\\'):
- error(filename, linenum, 'build/namespaces', 4,
- 'Do not use unnamed namespaces in header files. See '
- 'http://google-styleguide.googlecode.com/svn/trunk/cppguide.xml#Namespaces'
- ' for more information.')
-
-def CheckForNonConstReference(filename, clean_lines, linenum,
- nesting_state, error):
- """Check for non-const references.
-
- Separate from CheckLanguage since it scans backwards from current
- line, instead of scanning forward.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- nesting_state: A _NestingState instance which maintains information about
- the current stack of nested blocks being parsed.
- error: The function to call with any errors found.
- """
- # Do nothing if there is no '&' on current line.
- line = clean_lines.elided[linenum]
- if '&' not in line:
- return
-
- # Long type names may be broken across multiple lines, usually in one
- # of these forms:
- # LongType
- # ::LongTypeContinued &identifier
- # LongType::
- # LongTypeContinued &identifier
- # LongType<
- # ...>::LongTypeContinued &identifier
- #
- # If we detected a type split across two lines, join the previous
- # line to current line so that we can match const references
- # accordingly.
- #
- # Note that this only scans back one line, since scanning back
- # arbitrary number of lines would be expensive. If you have a type
- # that spans more than 2 lines, please use a typedef.
- if linenum > 1:
- previous = None
- if Match(r'\s*::(?:[\w<>]|::)+\s*&\s*\S', line):
- # previous_line\n + ::current_line
- previous = Search(r'\b((?:const\s*)?(?:[\w<>]|::)+[\w<>])\s*$',
- clean_lines.elided[linenum - 1])
- elif Match(r'\s*[a-zA-Z_]([\w<>]|::)+\s*&\s*\S', line):
- # previous_line::\n + current_line
- previous = Search(r'\b((?:const\s*)?(?:[\w<>]|::)+::)\s*$',
- clean_lines.elided[linenum - 1])
- if previous:
- line = previous.group(1) + line.lstrip()
- else:
- # Check for templated parameter that is split across multiple lines
- endpos = line.rfind('>')
- if endpos > -1:
- (_, startline, startpos) = ReverseCloseExpression(
- clean_lines, linenum, endpos)
- if startpos > -1 and startline < linenum:
- # Found the matching < on an earlier line, collect all
- # pieces up to current line.
- line = ''
- for i in xrange(startline, linenum + 1):
- line += clean_lines.elided[i].strip()
-
- # Check for non-const references in function parameters. A single '&' may
- # found in the following places:
- # inside expression: binary & for bitwise AND
- # inside expression: unary & for taking the address of something
- # inside declarators: reference parameter
- # We will exclude the first two cases by checking that we are not inside a
- # function body, including one that was just introduced by a trailing '{'.
- # TODO(unknwon): Doesn't account for preprocessor directives.
- # TODO(unknown): Doesn't account for 'catch(Exception& e)' [rare].
- check_params = False
- if not nesting_state.stack:
- check_params = True # top level
- elif (isinstance(nesting_state.stack[-1], _ClassInfo) or
- isinstance(nesting_state.stack[-1], _NamespaceInfo)):
- check_params = True # within class or namespace
- elif Match(r'.*{\s*$', line):
- if (len(nesting_state.stack) == 1 or
- isinstance(nesting_state.stack[-2], _ClassInfo) or
- isinstance(nesting_state.stack[-2], _NamespaceInfo)):
- check_params = True # just opened global/class/namespace block
- # We allow non-const references in a few standard places, like functions
- # called "swap()" or iostream operators like "<<" or ">>". Do not check
- # those function parameters.
- #
- # We also accept & in static_assert, which looks like a function but
- # it's actually a declaration expression.
- whitelisted_functions = (r'(?:[sS]wap(?:<\w:+>)?|'
- r'operator\s*[<>][<>]|'
- r'static_assert|COMPILE_ASSERT'
- r')\s*\(')
- if Search(whitelisted_functions, line):
- check_params = False
- elif not Search(r'\S+\([^)]*$', line):
- # Don't see a whitelisted function on this line. Actually we
- # didn't see any function name on this line, so this is likely a
- # multi-line parameter list. Try a bit harder to catch this case.
- for i in xrange(2):
- if (linenum > i and
- Search(whitelisted_functions, clean_lines.elided[linenum - i - 1])):
- check_params = False
- break
-
- if check_params:
- decls = ReplaceAll(r'{[^}]*}', ' ', line) # exclude function body
- for parameter in re.findall(_RE_PATTERN_REF_PARAM, decls):
- if not Match(_RE_PATTERN_CONST_REF_PARAM, parameter):
- error(filename, linenum, 'runtime/references', 2,
- 'Is this a non-const reference? '
- 'If so, make const or use a pointer: ' +
- ReplaceAll(' *<', '<', parameter))
-
-
-def CheckCStyleCast(filename, linenum, line, raw_line, cast_type, pattern,
- error):
- """Checks for a C-style cast by looking for the pattern.
-
- Args:
- filename: The name of the current file.
- linenum: The number of the line to check.
- line: The line of code to check.
- raw_line: The raw line of code to check, with comments.
- cast_type: The string for the C++ cast to recommend. This is either
- reinterpret_cast, static_cast, or const_cast, depending.
- pattern: The regular expression used to find C-style casts.
- error: The function to call with any errors found.
-
- Returns:
- True if an error was emitted.
- False otherwise.
- """
- match = Search(pattern, line)
- if not match:
- return False
-
- # e.g., sizeof(int)
- sizeof_match = Match(r'.*sizeof\s*$', line[0:match.start(1) - 1])
- if sizeof_match:
- error(filename, linenum, 'runtime/sizeof', 1,
- 'Using sizeof(type). Use sizeof(varname) instead if possible')
- return True
-
- # operator++(int) and operator--(int)
- if (line[0:match.start(1) - 1].endswith(' operator++') or
- line[0:match.start(1) - 1].endswith(' operator--')):
- return False
-
- # A single unnamed argument for a function tends to look like old
- # style cast. If we see those, don't issue warnings for deprecated
- # casts, instead issue warnings for unnamed arguments where
- # appropriate.
- #
- # These are things that we want warnings for, since the style guide
- # explicitly require all parameters to be named:
- # Function(int);
- # Function(int) {
- # ConstMember(int) const;
- # ConstMember(int) const {
- # ExceptionMember(int) throw (...);
- # ExceptionMember(int) throw (...) {
- # PureVirtual(int) = 0;
- #
- # These are functions of some sort, where the compiler would be fine
- # if they had named parameters, but people often omit those
- # identifiers to reduce clutter:
- # (FunctionPointer)(int);
- # (FunctionPointer)(int) = value;
- # Function((function_pointer_arg)(int))
- # <TemplateArgument(int)>;
- # <(FunctionPointerTemplateArgument)(int)>;
- remainder = line[match.end(0):]
- if Match(r'^\s*(?:;|const\b|throw\b|=|>|\{|\))', remainder):
- # Looks like an unnamed parameter.
-
- # Don't warn on any kind of template arguments.
- if Match(r'^\s*>', remainder):
- return False
-
- # Don't warn on assignments to function pointers, but keep warnings for
- # unnamed parameters to pure virtual functions. Note that this pattern
- # will also pass on assignments of "0" to function pointers, but the
- # preferred values for those would be "nullptr" or "NULL".
- matched_zero = Match(r'^\s=\s*(\S+)\s*;', remainder)
- if matched_zero and matched_zero.group(1) != '0':
- return False
-
- # Don't warn on function pointer declarations. For this we need
- # to check what came before the "(type)" string.
- if Match(r'.*\)\s*$', line[0:match.start(0)]):
- return False
-
- # Don't warn if the parameter is named with block comments, e.g.:
- # Function(int /*unused_param*/);
- if '/*' in raw_line:
- return False
-
- # Passed all filters, issue warning here.
- error(filename, linenum, 'readability/function', 3,
- 'All parameters should be named in a function')
- return True
-
- # At this point, all that should be left is actual casts.
- error(filename, linenum, 'readability/casting', 4,
- 'Using C-style cast. Use %s<%s>(...) instead' %
- (cast_type, match.group(1)))
-
- return True
-
-
-_HEADERS_CONTAINING_TEMPLATES = (
- ('<deque>', ('deque',)),
- ('<functional>', ('unary_function', 'binary_function',
- 'plus', 'minus', 'multiplies', 'divides', 'modulus',
- 'negate',
- 'equal_to', 'not_equal_to', 'greater', 'less',
- 'greater_equal', 'less_equal',
- 'logical_and', 'logical_or', 'logical_not',
- 'unary_negate', 'not1', 'binary_negate', 'not2',
- 'bind1st', 'bind2nd',
- 'pointer_to_unary_function',
- 'pointer_to_binary_function',
- 'ptr_fun',
- 'mem_fun_t', 'mem_fun', 'mem_fun1_t', 'mem_fun1_ref_t',
- 'mem_fun_ref_t',
- 'const_mem_fun_t', 'const_mem_fun1_t',
- 'const_mem_fun_ref_t', 'const_mem_fun1_ref_t',
- 'mem_fun_ref',
- )),
- ('<limits>', ('numeric_limits',)),
- ('<list>', ('list',)),
- ('<map>', ('map', 'multimap',)),
- ('<memory>', ('allocator',)),
- ('<queue>', ('queue', 'priority_queue',)),
- ('<set>', ('set', 'multiset',)),
- ('<stack>', ('stack',)),
- ('<string>', ('char_traits', 'basic_string',)),
- ('<utility>', ('pair',)),
- ('<vector>', ('vector',)),
-
- # gcc extensions.
- # Note: std::hash is their hash, ::hash is our hash
- ('<hash_map>', ('hash_map', 'hash_multimap',)),
- ('<hash_set>', ('hash_set', 'hash_multiset',)),
- ('<slist>', ('slist',)),
- )
-
-_RE_PATTERN_STRING = re.compile(r'\bstring\b')
-
-_re_pattern_algorithm_header = []
-for _template in ('copy', 'max', 'min', 'min_element', 'sort', 'swap',
- 'transform'):
- # Match max<type>(..., ...), max(..., ...), but not foo->max, foo.max or
- # type::max().
- _re_pattern_algorithm_header.append(
- (re.compile(r'[^>.]\b' + _template + r'(<.*?>)?\([^\)]'),
- _template,
- '<algorithm>'))
-
-_re_pattern_templates = []
-for _header, _templates in _HEADERS_CONTAINING_TEMPLATES:
- for _template in _templates:
- _re_pattern_templates.append(
- (re.compile(r'(\<|\b)' + _template + r'\s*\<'),
- _template + '<>',
- _header))
-
-
-def FilesBelongToSameModule(filename_cc, filename_h):
- """Check if these two filenames belong to the same module.
-
- The concept of a 'module' here is a as follows:
- foo.h, foo-inl.h, foo.cc, foo_test.cc and foo_unittest.cc belong to the
- same 'module' if they are in the same directory.
- some/path/public/xyzzy and some/path/internal/xyzzy are also considered
- to belong to the same module here.
-
- If the filename_cc contains a longer path than the filename_h, for example,
- '/absolute/path/to/base/sysinfo.cc', and this file would include
- 'base/sysinfo.h', this function also produces the prefix needed to open the
- header. This is used by the caller of this function to more robustly open the
- header file. We don't have access to the real include paths in this context,
- so we need this guesswork here.
-
- Known bugs: tools/base/bar.cc and base/bar.h belong to the same module
- according to this implementation. Because of this, this function gives
- some false positives. This should be sufficiently rare in practice.
-
- Args:
- filename_cc: is the path for the .cc file
- filename_h: is the path for the header path
-
- Returns:
- Tuple with a bool and a string:
- bool: True if filename_cc and filename_h belong to the same module.
- string: the additional prefix needed to open the header file.
- """
-
- if not filename_cc.endswith('.cc'):
- return (False, '')
- filename_cc = filename_cc[:-len('.cc')]
- if filename_cc.endswith('_unittest'):
- filename_cc = filename_cc[:-len('_unittest')]
- elif filename_cc.endswith('_test'):
- filename_cc = filename_cc[:-len('_test')]
- filename_cc = filename_cc.replace('/public/', '/')
- filename_cc = filename_cc.replace('/internal/', '/')
-
- if not filename_h.endswith('.h'):
- return (False, '')
- filename_h = filename_h[:-len('.h')]
- if filename_h.endswith('-inl'):
- filename_h = filename_h[:-len('-inl')]
- filename_h = filename_h.replace('/public/', '/')
- filename_h = filename_h.replace('/internal/', '/')
-
- files_belong_to_same_module = filename_cc.endswith(filename_h)
- common_path = ''
- if files_belong_to_same_module:
- common_path = filename_cc[:-len(filename_h)]
- return files_belong_to_same_module, common_path
-
-
-def UpdateIncludeState(filename, include_state, io=codecs):
- """Fill up the include_state with new includes found from the file.
-
- Args:
- filename: the name of the header to read.
- include_state: an _IncludeState instance in which the headers are inserted.
- io: The io factory to use to read the file. Provided for testability.
-
- Returns:
- True if a header was succesfully added. False otherwise.
- """
- headerfile = None
- try:
- headerfile = io.open(filename, 'r', 'utf8', 'replace')
- except IOError:
- return False
- linenum = 0
- for line in headerfile:
- linenum += 1
- clean_line = CleanseComments(line)
- match = _RE_PATTERN_INCLUDE.search(clean_line)
- if match:
- include = match.group(2)
- # The value formatting is cute, but not really used right now.
- # What matters here is that the key is in include_state.
- include_state.setdefault(include, '%s:%d' % (filename, linenum))
- return True
-
-
-def CheckForIncludeWhatYouUse(filename, clean_lines, include_state, error,
- io=codecs):
- """Reports for missing stl includes.
-
- This function will output warnings to make sure you are including the headers
- necessary for the stl containers and functions that you use. We only give one
- reason to include a header. For example, if you use both equal_to<> and
- less<> in a .h file, only one (the latter in the file) of these will be
- reported as a reason to include the <functional>.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- include_state: An _IncludeState instance.
- error: The function to call with any errors found.
- io: The IO factory to use to read the header file. Provided for unittest
- injection.
- """
- required = {} # A map of header name to linenumber and the template entity.
- # Example of required: { '<functional>': (1219, 'less<>') }
-
- for linenum in xrange(clean_lines.NumLines()):
- line = clean_lines.elided[linenum]
- if not line or line[0] == '#':
- continue
-
- # String is special -- it is a non-templatized type in STL.
- matched = _RE_PATTERN_STRING.search(line)
- if matched:
- # Don't warn about strings in non-STL namespaces:
- # (We check only the first match per line; good enough.)
- prefix = line[:matched.start()]
- if prefix.endswith('std::') or not prefix.endswith('::'):
- required['<string>'] = (linenum, 'string')
-
- for pattern, template, header in _re_pattern_algorithm_header:
- if pattern.search(line):
- required[header] = (linenum, template)
-
- # The following function is just a speed up, no semantics are changed.
- if not '<' in line: # Reduces the cpu time usage by skipping lines.
- continue
-
- for pattern, template, header in _re_pattern_templates:
- if pattern.search(line):
- required[header] = (linenum, template)
-
- # The policy is that if you #include something in foo.h you don't need to
- # include it again in foo.cc. Here, we will look at possible includes.
- # Let's copy the include_state so it is only messed up within this function.
- include_state = include_state.copy()
-
- # Did we find the header for this file (if any) and succesfully load it?
- header_found = False
-
- # Use the absolute path so that matching works properly.
- abs_filename = FileInfo(filename).FullName()
-
- # For Emacs's flymake.
- # If cpplint is invoked from Emacs's flymake, a temporary file is generated
- # by flymake and that file name might end with '_flymake.cc'. In that case,
- # restore original file name here so that the corresponding header file can be
- # found.
- # e.g. If the file name is 'foo_flymake.cc', we should search for 'foo.h'
- # instead of 'foo_flymake.h'
- abs_filename = re.sub(r'_flymake\.cc$', '.cc', abs_filename)
-
- # include_state is modified during iteration, so we iterate over a copy of
- # the keys.
- header_keys = include_state.keys()
- for header in header_keys:
- (same_module, common_path) = FilesBelongToSameModule(abs_filename, header)
- fullpath = common_path + header
- if same_module and UpdateIncludeState(fullpath, include_state, io):
- header_found = True
-
- # If we can't find the header file for a .cc, assume it's because we don't
- # know where to look. In that case we'll give up as we're not sure they
- # didn't include it in the .h file.
- # TODO(unknown): Do a better job of finding .h files so we are confident that
- # not having the .h file means there isn't one.
- if filename.endswith('.cc') and not header_found:
- return
-
- # All the lines have been processed, report the errors found.
- for required_header_unstripped in required:
- template = required[required_header_unstripped][1]
- if required_header_unstripped.strip('<>"') not in include_state:
- error(filename, required[required_header_unstripped][0],
- 'build/include_what_you_use', 4,
- 'Add #include ' + required_header_unstripped + ' for ' + template)
-
-
-_RE_PATTERN_EXPLICIT_MAKEPAIR = re.compile(r'\bmake_pair\s*<')
-
-
-def CheckMakePairUsesDeduction(filename, clean_lines, linenum, error):
- """Check that make_pair's template arguments are deduced.
-
- G++ 4.6 in C++0x mode fails badly if make_pair's template arguments are
- specified explicitly, and such use isn't intended in any case.
-
- Args:
- filename: The name of the current file.
- clean_lines: A CleansedLines instance containing the file.
- linenum: The number of the line to check.
- error: The function to call with any errors found.
- """
- line = clean_lines.elided[linenum]
- match = _RE_PATTERN_EXPLICIT_MAKEPAIR.search(line)
- if match:
- error(filename, linenum, 'build/explicit_make_pair',
- 4, # 4 = high confidence
- 'For C++11-compatibility, omit template arguments from make_pair'
- ' OR use pair directly OR if appropriate, construct a pair directly')
-
-
-def ProcessLine(filename, file_extension, clean_lines, line,
- include_state, function_state, nesting_state, error,
- extra_check_functions=[]):
- """Processes a single line in the file.
-
- Args:
- filename: Filename of the file that is being processed.
- file_extension: The extension (dot not included) of the file.
- clean_lines: An array of strings, each representing a line of the file,
- with comments stripped.
- line: Number of line being processed.
- include_state: An _IncludeState instance in which the headers are inserted.
- function_state: A _FunctionState instance which counts function lines, etc.
- nesting_state: A _NestingState instance which maintains information about
- the current stack of nested blocks being parsed.
- error: A callable to which errors are reported, which takes 4 arguments:
- filename, line number, error level, and message
- extra_check_functions: An array of additional check functions that will be
- run on each source line. Each function takes 4
- arguments: filename, clean_lines, line, error
- """
- raw_lines = clean_lines.raw_lines
- ParseNolintSuppressions(filename, raw_lines[line], line, error)
- nesting_state.Update(filename, clean_lines, line, error)
- if nesting_state.stack and nesting_state.stack[-1].inline_asm != _NO_ASM:
- return
- CheckForFunctionLengths(filename, clean_lines, line, function_state, error)
- CheckForMultilineCommentsAndStrings(filename, clean_lines, line, error)
- CheckStyle(filename, clean_lines, line, file_extension, nesting_state, error)
- CheckLanguage(filename, clean_lines, line, file_extension, include_state,
- nesting_state, error)
- CheckForNonConstReference(filename, clean_lines, line, nesting_state, error)
- CheckForNonStandardConstructs(filename, clean_lines, line,
- nesting_state, error)
- CheckVlogArguments(filename, clean_lines, line, error)
- CheckPosixThreading(filename, clean_lines, line, error)
- CheckInvalidIncrement(filename, clean_lines, line, error)
- CheckMakePairUsesDeduction(filename, clean_lines, line, error)
- for check_fn in extra_check_functions:
- check_fn(filename, clean_lines, line, error)
-
-def ProcessFileData(filename, file_extension, lines, error,
- extra_check_functions=[]):
- """Performs lint checks and reports any errors to the given error function.
-
- Args:
- filename: Filename of the file that is being processed.
- file_extension: The extension (dot not included) of the file.
- lines: An array of strings, each representing a line of the file, with the
- last element being empty if the file is terminated with a newline.
- error: A callable to which errors are reported, which takes 4 arguments:
- filename, line number, error level, and message
- extra_check_functions: An array of additional check functions that will be
- run on each source line. Each function takes 4
- arguments: filename, clean_lines, line, error
- """
- lines = (['// marker so line numbers and indices both start at 1'] + lines +
- ['// marker so line numbers end in a known way'])
-
- include_state = _IncludeState()
- function_state = _FunctionState()
- nesting_state = _NestingState()
-
- ResetNolintSuppressions()
-
- CheckForCopyright(filename, lines, error)
-
- if file_extension == 'h':
- CheckForHeaderGuard(filename, lines, error)
-
- RemoveMultiLineComments(filename, lines, error)
- clean_lines = CleansedLines(lines)
- for line in xrange(clean_lines.NumLines()):
- ProcessLine(filename, file_extension, clean_lines, line,
- include_state, function_state, nesting_state, error,
- extra_check_functions)
- nesting_state.CheckCompletedBlocks(filename, error)
-
- CheckForIncludeWhatYouUse(filename, clean_lines, include_state, error)
-
- # We check here rather than inside ProcessLine so that we see raw
- # lines rather than "cleaned" lines.
- CheckForBadCharacters(filename, lines, error)
-
- CheckForNewlineAtEOF(filename, lines, error)
-
-def ProcessFile(filename, vlevel, extra_check_functions=[]):
- """Does google-lint on a single file.
-
- Args:
- filename: The name of the file to parse.
-
- vlevel: The level of errors to report. Every error of confidence
- >= verbose_level will be reported. 0 is a good default.
-
- extra_check_functions: An array of additional check functions that will be
- run on each source line. Each function takes 4
- arguments: filename, clean_lines, line, error
- """
-
- _SetVerboseLevel(vlevel)
-
- try:
- # Support the UNIX convention of using "-" for stdin. Note that
- # we are not opening the file with universal newline support
- # (which codecs doesn't support anyway), so the resulting lines do
- # contain trailing '\r' characters if we are reading a file that
- # has CRLF endings.
- # If after the split a trailing '\r' is present, it is removed
- # below. If it is not expected to be present (i.e. os.linesep !=
- # '\r\n' as in Windows), a warning is issued below if this file
- # is processed.
-
- if filename == '-':
- lines = codecs.StreamReaderWriter(sys.stdin,
- codecs.getreader('utf8'),
- codecs.getwriter('utf8'),
- 'replace').read().split('\n')
- else:
- lines = codecs.open(filename, 'r', 'utf8', 'replace').read().split('\n')
-
- carriage_return_found = False
- # Remove trailing '\r'.
- for linenum in range(len(lines)):
- if lines[linenum].endswith('\r'):
- lines[linenum] = lines[linenum].rstrip('\r')
- carriage_return_found = True
-
- except IOError:
- sys.stderr.write(
- "Skipping input '%s': Can't open for reading\n" % filename)
- return
-
- # Note, if no dot is found, this will give the entire filename as the ext.
- file_extension = filename[filename.rfind('.') + 1:]
-
- # When reading from stdin, the extension is unknown, so no cpplint tests
- # should rely on the extension.
- if filename != '-' and file_extension not in _valid_extensions:
- sys.stderr.write('Ignoring %s; not a valid file name '
- '(%s)\n' % (filename, ', '.join(_valid_extensions)))
- else:
- ProcessFileData(filename, file_extension, lines, Error,
- extra_check_functions)
- if carriage_return_found and os.linesep != '\r\n':
- # Use 0 for linenum since outputting only one error for potentially
- # several lines.
- Error(filename, 0, 'whitespace/newline', 1,
- 'One or more unexpected \\r (^M) found;'
- 'better to use only a \\n')
-
- sys.stderr.write('Done processing %s\n' % filename)
-
-
-def PrintUsage(message):
- """Prints a brief usage string and exits, optionally with an error message.
-
- Args:
- message: The optional error message.
- """
- sys.stderr.write(_USAGE)
- if message:
- sys.exit('\nFATAL ERROR: ' + message)
- else:
- sys.exit(1)
-
-
-def PrintCategories():
- """Prints a list of all the error-categories used by error messages.
-
- These are the categories used to filter messages via --filter.
- """
- sys.stderr.write(''.join(' %s\n' % cat for cat in _ERROR_CATEGORIES))
- sys.exit(0)
-
-
-def ParseArguments(args):
- """Parses the command line arguments.
-
- This may set the output format and verbosity level as side-effects.
-
- Args:
- args: The command line arguments:
-
- Returns:
- The list of filenames to lint.
- """
- try:
- (opts, filenames) = getopt.getopt(args, '', ['help', 'output=', 'verbose=',
- 'counting=',
- 'filter=',
- 'root=',
- 'linelength=',
- 'extensions='])
- except getopt.GetoptError:
- PrintUsage('Invalid arguments.')
-
- verbosity = _VerboseLevel()
- output_format = _OutputFormat()
- filters = ''
- counting_style = ''
-
- for (opt, val) in opts:
- if opt == '--help':
- PrintUsage(None)
- elif opt == '--output':
- if val not in ('emacs', 'vs7', 'eclipse'):
- PrintUsage('The only allowed output formats are emacs, vs7 and eclipse.')
- output_format = val
- elif opt == '--verbose':
- verbosity = int(val)
- elif opt == '--filter':
- filters = val
- if not filters:
- PrintCategories()
- elif opt == '--counting':
- if val not in ('total', 'toplevel', 'detailed'):
- PrintUsage('Valid counting options are total, toplevel, and detailed')
- counting_style = val
- elif opt == '--root':
- global _root
- _root = val
- elif opt == '--linelength':
- global _line_length
- try:
- _line_length = int(val)
- except ValueError:
- PrintUsage('Line length must be digits.')
- elif opt == '--extensions':
- global _valid_extensions
- try:
- _valid_extensions = set(val.split(','))
- except ValueError:
- PrintUsage('Extensions must be comma seperated list.')
-
- if not filenames:
- PrintUsage('No files were specified.')
-
- _SetOutputFormat(output_format)
- _SetVerboseLevel(verbosity)
- _SetFilters(filters)
- _SetCountingStyle(counting_style)
-
- return filenames
-
-
-def main():
- filenames = ParseArguments(sys.argv[1:])
-
- # Change stderr to write with replacement characters so we don't die
- # if we try to print something containing non-ASCII characters.
- sys.stderr = codecs.StreamReaderWriter(sys.stderr,
- codecs.getreader('utf8'),
- codecs.getwriter('utf8'),
- 'replace')
-
- _cpplint_state.ResetErrorCounts()
- for filename in filenames:
- ProcessFile(filename, _cpplint_state.verbose_level)
- _cpplint_state.PrintErrorCounts()
-
- sys.exit(_cpplint_state.error_count > 0)
-
-
-if __name__ == '__main__':
- main()
diff --git a/third_party/aom/tools/diff.py b/third_party/aom/tools/diff.py
deleted file mode 100644
index bac6aabdc..000000000
--- a/third_party/aom/tools/diff.py
+++ /dev/null
@@ -1,132 +0,0 @@
-#!/usr/bin/env python
-##
-## Copyright (c) 2016, Alliance for Open Media. All rights reserved
-##
-## This source code is subject to the terms of the BSD 2 Clause License and
-## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
-## was not distributed with this source code in the LICENSE file, you can
-## obtain it at www.aomedia.org/license/software. If the Alliance for Open
-## Media Patent License 1.0 was not distributed with this source code in the
-## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
-##
-"""Classes for representing diff pieces."""
-
-__author__ = "jkoleszar@google.com"
-
-import re
-
-
-class DiffLines(object):
- """A container for one half of a diff."""
-
- def __init__(self, filename, offset, length):
- self.filename = filename
- self.offset = offset
- self.length = length
- self.lines = []
- self.delta_line_nums = []
-
- def Append(self, line):
- l = len(self.lines)
- if line[0] != " ":
- self.delta_line_nums.append(self.offset + l)
- self.lines.append(line[1:])
- assert l+1 <= self.length
-
- def Complete(self):
- return len(self.lines) == self.length
-
- def __contains__(self, item):
- return item >= self.offset and item <= self.offset + self.length - 1
-
-
-class DiffHunk(object):
- """A container for one diff hunk, consisting of two DiffLines."""
-
- def __init__(self, header, file_a, file_b, start_a, len_a, start_b, len_b):
- self.header = header
- self.left = DiffLines(file_a, start_a, len_a)
- self.right = DiffLines(file_b, start_b, len_b)
- self.lines = []
-
- def Append(self, line):
- """Adds a line to the DiffHunk and its DiffLines children."""
- if line[0] == "-":
- self.left.Append(line)
- elif line[0] == "+":
- self.right.Append(line)
- elif line[0] == " ":
- self.left.Append(line)
- self.right.Append(line)
- elif line[0] == "\\":
- # Ignore newline messages from git diff.
- pass
- else:
- assert False, ("Unrecognized character at start of diff line "
- "%r" % line[0])
- self.lines.append(line)
-
- def Complete(self):
- return self.left.Complete() and self.right.Complete()
-
- def __repr__(self):
- return "DiffHunk(%s, %s, len %d)" % (
- self.left.filename, self.right.filename,
- max(self.left.length, self.right.length))
-
-
-def ParseDiffHunks(stream):
- """Walk a file-like object, yielding DiffHunks as they're parsed."""
-
- file_regex = re.compile(r"(\+\+\+|---) (\S+)")
- range_regex = re.compile(r"@@ -(\d+)(,(\d+))? \+(\d+)(,(\d+))?")
- hunk = None
- while True:
- line = stream.readline()
- if not line:
- break
-
- if hunk is None:
- # Parse file names
- diff_file = file_regex.match(line)
- if diff_file:
- if line.startswith("---"):
- a_line = line
- a = diff_file.group(2)
- continue
- if line.startswith("+++"):
- b_line = line
- b = diff_file.group(2)
- continue
-
- # Parse offset/lengths
- diffrange = range_regex.match(line)
- if diffrange:
- if diffrange.group(2):
- start_a = int(diffrange.group(1))
- len_a = int(diffrange.group(3))
- else:
- start_a = 1
- len_a = int(diffrange.group(1))
-
- if diffrange.group(5):
- start_b = int(diffrange.group(4))
- len_b = int(diffrange.group(6))
- else:
- start_b = 1
- len_b = int(diffrange.group(4))
-
- header = [a_line, b_line, line]
- hunk = DiffHunk(header, a, b, start_a, len_a, start_b, len_b)
- else:
- # Add the current line to the hunk
- hunk.Append(line)
-
- # See if the whole hunk has been parsed. If so, yield it and prepare
- # for the next hunk.
- if hunk.Complete():
- yield hunk
- hunk = None
-
- # Partial hunks are a parse error
- assert hunk is None
diff --git a/third_party/aom/tools/dump_obu.cc b/third_party/aom/tools/dump_obu.cc
deleted file mode 100644
index 30ee5e7a1..000000000
--- a/third_party/aom/tools/dump_obu.cc
+++ /dev/null
@@ -1,164 +0,0 @@
-/*
- * Copyright (c) 2017, Alliance for Open Media. All rights reserved
- *
- * This source code is subject to the terms of the BSD 2 Clause License and
- * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
- * was not distributed with this source code in the LICENSE file, you can
- * obtain it at www.aomedia.org/license/software. If the Alliance for Open
- * Media Patent License 1.0 was not distributed with this source code in the
- * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
- */
-
-#include <stdlib.h>
-#include <string.h>
-
-#include <memory>
-#include <string>
-
-#include "config/aom_config.h"
-
-#include "common/ivfdec.h"
-#include "common/obudec.h"
-#include "common/tools_common.h"
-#include "common/webmdec.h"
-#include "tools/obu_parser.h"
-
-namespace {
-
-const size_t kInitialBufferSize = 100 * 1024;
-
-struct InputContext {
- InputContext() = default;
- ~InputContext() { free(unit_buffer); }
-
- void Init() {
- memset(avx_ctx, 0, sizeof(*avx_ctx));
- memset(obu_ctx, 0, sizeof(*obu_ctx));
- obu_ctx->avx_ctx = avx_ctx;
-#if CONFIG_WEBM_IO
- memset(webm_ctx, 0, sizeof(*webm_ctx));
-#endif
- }
-
- AvxInputContext *avx_ctx = nullptr;
- ObuDecInputContext *obu_ctx = nullptr;
-#if CONFIG_WEBM_IO
- WebmInputContext *webm_ctx = nullptr;
-#endif
- uint8_t *unit_buffer = nullptr;
- size_t unit_buffer_size = 0;
-};
-
-void PrintUsage() {
- printf("Libaom OBU dump.\nUsage: dump_obu <input_file>\n");
-}
-
-VideoFileType GetFileType(InputContext *ctx) {
- if (file_is_ivf(ctx->avx_ctx)) return FILE_TYPE_IVF;
- if (file_is_obu(ctx->obu_ctx)) return FILE_TYPE_OBU;
-#if CONFIG_WEBM_IO
- if (file_is_webm(ctx->webm_ctx, ctx->avx_ctx)) return FILE_TYPE_WEBM;
-#endif
- return FILE_TYPE_RAW;
-}
-
-bool ReadTemporalUnit(InputContext *ctx, size_t *unit_size) {
- const VideoFileType file_type = ctx->avx_ctx->file_type;
- switch (file_type) {
- case FILE_TYPE_IVF: {
- if (ivf_read_frame(ctx->avx_ctx->file, &ctx->unit_buffer, unit_size,
- &ctx->unit_buffer_size, NULL)) {
- return false;
- }
- break;
- }
- case FILE_TYPE_OBU: {
- if (obudec_read_temporal_unit(ctx->obu_ctx, &ctx->unit_buffer, unit_size,
- &ctx->unit_buffer_size)) {
- return false;
- }
- break;
- }
-#if CONFIG_WEBM_IO
- case FILE_TYPE_WEBM: {
- if (webm_read_frame(ctx->webm_ctx, &ctx->unit_buffer, unit_size,
- &ctx->unit_buffer_size)) {
- return false;
- }
- break;
- }
-#endif
- default:
- // TODO(tomfinegan): Abuse FILE_TYPE_RAW for AV1/OBU elementary streams?
- fprintf(stderr, "Error: Unsupported file type.\n");
- return false;
- }
-
- return true;
-}
-
-} // namespace
-
-int main(int argc, const char *argv[]) {
- // TODO(tomfinegan): Could do with some params for verbosity.
- if (argc < 2) {
- PrintUsage();
- return EXIT_SUCCESS;
- }
-
- const std::string filename = argv[1];
-
- using FilePtr = std::unique_ptr<FILE, decltype(&fclose)>;
- FilePtr input_file(fopen(filename.c_str(), "rb"), &fclose);
- if (input_file.get() == nullptr) {
- input_file.release();
- fprintf(stderr, "Error: Cannot open input file.\n");
- return EXIT_FAILURE;
- }
-
- AvxInputContext avx_ctx;
- InputContext input_ctx;
- input_ctx.avx_ctx = &avx_ctx;
- ObuDecInputContext obu_ctx;
- input_ctx.obu_ctx = &obu_ctx;
-#if CONFIG_WEBM_IO
- WebmInputContext webm_ctx;
- input_ctx.webm_ctx = &webm_ctx;
-#endif
-
- input_ctx.Init();
- avx_ctx.file = input_file.get();
- avx_ctx.file_type = GetFileType(&input_ctx);
-
- // Note: the reader utilities will realloc the buffer using realloc() etc.
- // Can't have nice things like unique_ptr wrappers with that type of
- // behavior underneath the function calls.
- input_ctx.unit_buffer =
- reinterpret_cast<uint8_t *>(calloc(kInitialBufferSize, 1));
- if (!input_ctx.unit_buffer) {
- fprintf(stderr, "Error: No memory, can't alloc input buffer.\n");
- return EXIT_FAILURE;
- }
- input_ctx.unit_buffer_size = kInitialBufferSize;
-
- size_t unit_size = 0;
- int unit_number = 0;
- int64_t obu_overhead_bytes_total = 0;
- while (ReadTemporalUnit(&input_ctx, &unit_size)) {
- printf("Temporal unit %d\n", unit_number);
-
- int obu_overhead_current_unit = 0;
- if (!aom_tools::DumpObu(input_ctx.unit_buffer, static_cast<int>(unit_size),
- &obu_overhead_current_unit)) {
- fprintf(stderr, "Error: Temporal Unit parse failed on unit number %d.\n",
- unit_number);
- return EXIT_FAILURE;
- }
- printf(" OBU overhead: %d\n", obu_overhead_current_unit);
- ++unit_number;
- obu_overhead_bytes_total += obu_overhead_current_unit;
- }
-
- printf("File total OBU overhead: %" PRId64 "\n", obu_overhead_bytes_total);
- return EXIT_SUCCESS;
-}
diff --git a/third_party/aom/tools/gen_authors.sh b/third_party/aom/tools/gen_authors.sh
deleted file mode 100755
index 5def8bc89..000000000
--- a/third_party/aom/tools/gen_authors.sh
+++ /dev/null
@@ -1,10 +0,0 @@
-#!/bin/bash
-
-# Add organization names manually.
-
-cat <<EOF
-# This file is automatically generated from the git commit history
-# by tools/gen_authors.sh.
-
-$(git log --pretty=format:"%aN <%aE>" | sort | uniq | grep -v "corp.google\|clang-format")
-EOF
diff --git a/third_party/aom/tools/gen_constrained_tokenset.py b/third_party/aom/tools/gen_constrained_tokenset.py
deleted file mode 100755
index 5d12ee1ef..000000000
--- a/third_party/aom/tools/gen_constrained_tokenset.py
+++ /dev/null
@@ -1,120 +0,0 @@
-#!/usr/bin/python
-##
-## Copyright (c) 2016, Alliance for Open Media. All rights reserved
-##
-## This source code is subject to the terms of the BSD 2 Clause License and
-## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
-## was not distributed with this source code in the LICENSE file, you can
-## obtain it at www.aomedia.org/license/software. If the Alliance for Open
-## Media Patent License 1.0 was not distributed with this source code in the
-## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
-##
-"""Generate the probability model for the constrained token set.
-
-Model obtained from a 2-sided zero-centered distribution derived
-from a Pareto distribution. The cdf of the distribution is:
-cdf(x) = 0.5 + 0.5 * sgn(x) * [1 - {alpha/(alpha + |x|)} ^ beta]
-
-For a given beta and a given probability of the 1-node, the alpha
-is first solved, and then the {alpha, beta} pair is used to generate
-the probabilities for the rest of the nodes.
-"""
-
-import heapq
-import sys
-import numpy as np
-import scipy.optimize
-import scipy.stats
-
-
-def cdf_spareto(x, xm, beta):
- p = 1 - (xm / (np.abs(x) + xm))**beta
- p = 0.5 + 0.5 * np.sign(x) * p
- return p
-
-
-def get_spareto(p, beta):
- cdf = cdf_spareto
-
- def func(x):
- return ((cdf(1.5, x, beta) - cdf(0.5, x, beta)) /
- (1 - cdf(0.5, x, beta)) - p)**2
-
- alpha = scipy.optimize.fminbound(func, 1e-12, 10000, xtol=1e-12)
- parray = np.zeros(11)
- parray[0] = 2 * (cdf(0.5, alpha, beta) - 0.5)
- parray[1] = (2 * (cdf(1.5, alpha, beta) - cdf(0.5, alpha, beta)))
- parray[2] = (2 * (cdf(2.5, alpha, beta) - cdf(1.5, alpha, beta)))
- parray[3] = (2 * (cdf(3.5, alpha, beta) - cdf(2.5, alpha, beta)))
- parray[4] = (2 * (cdf(4.5, alpha, beta) - cdf(3.5, alpha, beta)))
- parray[5] = (2 * (cdf(6.5, alpha, beta) - cdf(4.5, alpha, beta)))
- parray[6] = (2 * (cdf(10.5, alpha, beta) - cdf(6.5, alpha, beta)))
- parray[7] = (2 * (cdf(18.5, alpha, beta) - cdf(10.5, alpha, beta)))
- parray[8] = (2 * (cdf(34.5, alpha, beta) - cdf(18.5, alpha, beta)))
- parray[9] = (2 * (cdf(66.5, alpha, beta) - cdf(34.5, alpha, beta)))
- parray[10] = 2 * (1. - cdf(66.5, alpha, beta))
- return parray
-
-
-def quantize_probs(p, save_first_bin, bits):
- """Quantize probability precisely.
-
- Quantize probabilities minimizing dH (Kullback-Leibler divergence)
- approximated by: sum (p_i-q_i)^2/p_i.
- References:
- https://en.wikipedia.org/wiki/Kullback%E2%80%93Leibler_divergence
- https://github.com/JarekDuda/AsymmetricNumeralSystemsToolkit
- """
- num_sym = p.size
- p = np.clip(p, 1e-16, 1)
- L = 2**bits
- pL = p * L
- ip = 1. / p # inverse probability
- q = np.clip(np.round(pL), 1, L + 1 - num_sym)
- quant_err = (pL - q)**2 * ip
- sgn = np.sign(L - q.sum()) # direction of correction
- if sgn != 0: # correction is needed
- v = [] # heap of adjustment results (adjustment err, index) of each symbol
- for i in range(1 if save_first_bin else 0, num_sym):
- q_adj = q[i] + sgn
- if q_adj > 0 and q_adj < L:
- adj_err = (pL[i] - q_adj)**2 * ip[i] - quant_err[i]
- heapq.heappush(v, (adj_err, i))
- while q.sum() != L:
- # apply lowest error adjustment
- (adj_err, i) = heapq.heappop(v)
- quant_err[i] += adj_err
- q[i] += sgn
- # calculate the cost of adjusting this symbol again
- q_adj = q[i] + sgn
- if q_adj > 0 and q_adj < L:
- adj_err = (pL[i] - q_adj)**2 * ip[i] - quant_err[i]
- heapq.heappush(v, (adj_err, i))
- return q
-
-
-def get_quantized_spareto(p, beta, bits, first_token):
- parray = get_spareto(p, beta)
- parray = parray[1:] / (1 - parray[0])
- # CONFIG_NEW_TOKENSET
- if first_token > 1:
- parray = parray[1:] / (1 - parray[0])
- qarray = quantize_probs(parray, first_token == 1, bits)
- return qarray.astype(np.int)
-
-
-def main(bits=15, first_token=1):
- beta = 8
- for q in range(1, 256):
- parray = get_quantized_spareto(q / 256., beta, bits, first_token)
- assert parray.sum() == 2**bits
- print '{', ', '.join('%d' % i for i in parray), '},'
-
-
-if __name__ == '__main__':
- if len(sys.argv) > 2:
- main(int(sys.argv[1]), int(sys.argv[2]))
- elif len(sys.argv) > 1:
- main(int(sys.argv[1]))
- else:
- main()
diff --git a/third_party/aom/tools/inspect-cli.js b/third_party/aom/tools/inspect-cli.js
deleted file mode 100644
index a14c08111..000000000
--- a/third_party/aom/tools/inspect-cli.js
+++ /dev/null
@@ -1,39 +0,0 @@
-/**
- * This tool lets you test if the compiled Javascript decoder is functioning properly. You'll
- * need to download a SpiderMonkey js-shell to run this script.
- * https://archive.mozilla.org/pub/firefox/nightly/latest-mozilla-central/
- *
- * Example:
- * js-shell inspect-cli.js video.ivf
- */
-load("inspect.js");
-var buffer = read(scriptArgs[0], "binary");
-var Module = {
- noExitRuntime: true,
- noInitialRun: true,
- preInit: [],
- preRun: [],
- postRun: [function () {
- printErr(`Loaded Javascript Decoder OK`);
- }],
- memoryInitializerPrefixURL: "bin/",
- arguments: ['input.ivf', 'output.raw'],
- on_frame_decoded_json: function (jsonString) {
- let json = JSON.parse("[" + Module.UTF8ToString(jsonString) + "null]");
- json.forEach(frame => {
- if (frame) {
- print(frame.frame);
- }
- });
- }
-};
-DecoderModule(Module);
-Module.FS.writeFile("/tmp/input.ivf", buffer, { encoding: "binary" });
-Module._open_file();
-Module._set_layers(0xFFFFFFFF); // Set this to zero if you want to benchmark decoding.
-while(true) {
- printErr("Decoding Frame ...");
- if (Module._read_frame()) {
- break;
- }
-}
diff --git a/third_party/aom/tools/inspect-post.js b/third_party/aom/tools/inspect-post.js
deleted file mode 100644
index 31c40bb82..000000000
--- a/third_party/aom/tools/inspect-post.js
+++ /dev/null
@@ -1 +0,0 @@
-Module["FS"] = FS;
diff --git a/third_party/aom/tools/intersect-diffs.py b/third_party/aom/tools/intersect-diffs.py
deleted file mode 100755
index df13c4ef7..000000000
--- a/third_party/aom/tools/intersect-diffs.py
+++ /dev/null
@@ -1,78 +0,0 @@
-#!/usr/bin/env python
-##
-## Copyright (c) 2016, Alliance for Open Media. All rights reserved
-##
-## This source code is subject to the terms of the BSD 2 Clause License and
-## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
-## was not distributed with this source code in the LICENSE file, you can
-## obtain it at www.aomedia.org/license/software. If the Alliance for Open
-## Media Patent License 1.0 was not distributed with this source code in the
-## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
-##
-"""Calculates the "intersection" of two unified diffs.
-
-Given two diffs, A and B, it finds all hunks in B that had non-context lines
-in A and prints them to stdout. This is useful to determine the hunks in B that
-are relevant to A. The resulting file can be applied with patch(1) on top of A.
-"""
-
-__author__ = "jkoleszar@google.com"
-
-import sys
-
-import diff
-
-
-def FormatDiffHunks(hunks):
- """Re-serialize a list of DiffHunks."""
- r = []
- last_header = None
- for hunk in hunks:
- this_header = hunk.header[0:2]
- if last_header != this_header:
- r.extend(hunk.header)
- last_header = this_header
- else:
- r.extend(hunk.header[2])
- r.extend(hunk.lines)
- r.append("\n")
- return "".join(r)
-
-
-def ZipHunks(rhs_hunks, lhs_hunks):
- """Join two hunk lists on filename."""
- for rhs_hunk in rhs_hunks:
- rhs_file = rhs_hunk.right.filename.split("/")[1:]
-
- for lhs_hunk in lhs_hunks:
- lhs_file = lhs_hunk.left.filename.split("/")[1:]
- if lhs_file != rhs_file:
- continue
- yield (rhs_hunk, lhs_hunk)
-
-
-def main():
- old_hunks = [x for x in diff.ParseDiffHunks(open(sys.argv[1], "r"))]
- new_hunks = [x for x in diff.ParseDiffHunks(open(sys.argv[2], "r"))]
- out_hunks = []
-
- # Join the right hand side of the older diff with the left hand side of the
- # newer diff.
- for old_hunk, new_hunk in ZipHunks(old_hunks, new_hunks):
- if new_hunk in out_hunks:
- continue
- old_lines = old_hunk.right
- new_lines = new_hunk.left
-
- # Determine if this hunk overlaps any non-context line from the other
- for i in old_lines.delta_line_nums:
- if i in new_lines:
- out_hunks.append(new_hunk)
- break
-
- if out_hunks:
- print FormatDiffHunks(out_hunks)
- sys.exit(1)
-
-if __name__ == "__main__":
- main()
diff --git a/third_party/aom/tools/lint-hunks.py b/third_party/aom/tools/lint-hunks.py
deleted file mode 100755
index d02bee16c..000000000
--- a/third_party/aom/tools/lint-hunks.py
+++ /dev/null
@@ -1,146 +0,0 @@
-#!/usr/bin/python
-##
-## Copyright (c) 2016, Alliance for Open Media. All rights reserved
-##
-## This source code is subject to the terms of the BSD 2 Clause License and
-## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
-## was not distributed with this source code in the LICENSE file, you can
-## obtain it at www.aomedia.org/license/software. If the Alliance for Open
-## Media Patent License 1.0 was not distributed with this source code in the
-## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
-##
-"""Performs style checking on each diff hunk."""
-import getopt
-import os
-import StringIO
-import subprocess
-import sys
-
-import diff
-
-
-SHORT_OPTIONS = "h"
-LONG_OPTIONS = ["help"]
-
-TOPLEVEL_CMD = ["git", "rev-parse", "--show-toplevel"]
-DIFF_CMD = ["git", "diff"]
-DIFF_INDEX_CMD = ["git", "diff-index", "-u", "HEAD", "--"]
-SHOW_CMD = ["git", "show"]
-CPPLINT_FILTERS = ["-readability/casting"]
-
-
-class Usage(Exception):
- pass
-
-
-class SubprocessException(Exception):
- def __init__(self, args):
- msg = "Failed to execute '%s'"%(" ".join(args))
- super(SubprocessException, self).__init__(msg)
-
-
-class Subprocess(subprocess.Popen):
- """Adds the notion of an expected returncode to Popen."""
-
- def __init__(self, args, expected_returncode=0, **kwargs):
- self._args = args
- self._expected_returncode = expected_returncode
- super(Subprocess, self).__init__(args, **kwargs)
-
- def communicate(self, *args, **kwargs):
- result = super(Subprocess, self).communicate(*args, **kwargs)
- if self._expected_returncode is not None:
- try:
- ok = self.returncode in self._expected_returncode
- except TypeError:
- ok = self.returncode == self._expected_returncode
- if not ok:
- raise SubprocessException(self._args)
- return result
-
-
-def main(argv=None):
- if argv is None:
- argv = sys.argv
- try:
- try:
- opts, args = getopt.getopt(argv[1:], SHORT_OPTIONS, LONG_OPTIONS)
- except getopt.error, msg:
- raise Usage(msg)
-
- # process options
- for o, _ in opts:
- if o in ("-h", "--help"):
- print __doc__
- sys.exit(0)
-
- if args and len(args) > 1:
- print __doc__
- sys.exit(0)
-
- # Find the fully qualified path to the root of the tree
- tl = Subprocess(TOPLEVEL_CMD, stdout=subprocess.PIPE)
- tl = tl.communicate()[0].strip()
-
- # See if we're working on the index or not.
- if args:
- diff_cmd = DIFF_CMD + [args[0] + "^!"]
- else:
- diff_cmd = DIFF_INDEX_CMD
-
- # Build the command line to execute cpplint
- cpplint_cmd = [os.path.join(tl, "tools", "cpplint.py"),
- "--filter=" + ",".join(CPPLINT_FILTERS),
- "-"]
-
- # Get a list of all affected lines
- file_affected_line_map = {}
- p = Subprocess(diff_cmd, stdout=subprocess.PIPE)
- stdout = p.communicate()[0]
- for hunk in diff.ParseDiffHunks(StringIO.StringIO(stdout)):
- filename = hunk.right.filename[2:]
- if filename not in file_affected_line_map:
- file_affected_line_map[filename] = set()
- file_affected_line_map[filename].update(hunk.right.delta_line_nums)
-
- # Run each affected file through cpplint
- lint_failed = False
- for filename, affected_lines in file_affected_line_map.iteritems():
- if filename.split(".")[-1] not in ("c", "h", "cc"):
- continue
-
- if args:
- # File contents come from git
- show_cmd = SHOW_CMD + [args[0] + ":" + filename]
- show = Subprocess(show_cmd, stdout=subprocess.PIPE)
- lint = Subprocess(cpplint_cmd, expected_returncode=(0, 1),
- stdin=show.stdout, stderr=subprocess.PIPE)
- lint_out = lint.communicate()[1]
- else:
- # File contents come from the working tree
- lint = Subprocess(cpplint_cmd, expected_returncode=(0, 1),
- stdin=subprocess.PIPE, stderr=subprocess.PIPE)
- stdin = open(os.path.join(tl, filename)).read()
- lint_out = lint.communicate(stdin)[1]
-
- for line in lint_out.split("\n"):
- fields = line.split(":")
- if fields[0] != "-":
- continue
- warning_line_num = int(fields[1])
- if warning_line_num in affected_lines:
- print "%s:%d:%s"%(filename, warning_line_num,
- ":".join(fields[2:]))
- lint_failed = True
-
- # Set exit code if any relevant lint errors seen
- if lint_failed:
- return 1
-
- except Usage, err:
- print >>sys.stderr, err
- print >>sys.stderr, "for help use --help"
- return 2
-
-if __name__ == "__main__":
- sys.exit(main())
diff --git a/third_party/aom/tools/obu_parser.cc b/third_party/aom/tools/obu_parser.cc
deleted file mode 100644
index 7d71386ce..000000000
--- a/third_party/aom/tools/obu_parser.cc
+++ /dev/null
@@ -1,190 +0,0 @@
-/*
- * Copyright (c) 2017, Alliance for Open Media. All rights reserved
- *
- * This source code is subject to the terms of the BSD 2 Clause License and
- * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
- * was not distributed with this source code in the LICENSE file, you can
- * obtain it at www.aomedia.org/license/software. If the Alliance for Open
- * Media Patent License 1.0 was not distributed with this source code in the
- * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
- */
-#include <string.h>
-
-#include <cstdio>
-#include <string>
-
-#include "aom/aom_codec.h"
-#include "aom/aom_integer.h"
-#include "aom_ports/mem_ops.h"
-#include "av1/common/obu_util.h"
-#include "tools/obu_parser.h"
-
-namespace aom_tools {
-
-// Basic OBU syntax
-// 8 bits: Header
-// 7
-// forbidden bit
-// 6,5,4,3
-// type bits
-// 2
-// extension flag bit
-// 1
-// has size field bit
-// 0
-// reserved bit
-const uint32_t kObuForbiddenBitMask = 0x1;
-const uint32_t kObuForbiddenBitShift = 7;
-const uint32_t kObuTypeBitsMask = 0xF;
-const uint32_t kObuTypeBitsShift = 3;
-const uint32_t kObuExtensionFlagBitMask = 0x1;
-const uint32_t kObuExtensionFlagBitShift = 2;
-const uint32_t kObuHasSizeFieldBitMask = 0x1;
-const uint32_t kObuHasSizeFieldBitShift = 1;
-
-// When extension flag bit is set:
-// 8 bits: extension header
-// 7,6,5
-// temporal ID
-// 4,3
-// spatial ID
-// 2,1,0
-// reserved bits
-const uint32_t kObuExtTemporalIdBitsMask = 0x7;
-const uint32_t kObuExtTemporalIdBitsShift = 5;
-const uint32_t kObuExtSpatialIdBitsMask = 0x3;
-const uint32_t kObuExtSpatialIdBitsShift = 3;
-
-bool ValidObuType(int obu_type) {
- switch (obu_type) {
- case OBU_SEQUENCE_HEADER:
- case OBU_TEMPORAL_DELIMITER:
- case OBU_FRAME_HEADER:
- case OBU_TILE_GROUP:
- case OBU_METADATA:
- case OBU_FRAME:
- case OBU_REDUNDANT_FRAME_HEADER:
- case OBU_TILE_LIST:
- case OBU_PADDING: return true;
- }
- return false;
-}
-
-bool ParseObuHeader(uint8_t obu_header_byte, ObuHeader *obu_header) {
- const int forbidden_bit =
- (obu_header_byte >> kObuForbiddenBitShift) & kObuForbiddenBitMask;
- if (forbidden_bit) {
- fprintf(stderr, "Invalid OBU, forbidden bit set.\n");
- return false;
- }
-
- obu_header->type = static_cast<OBU_TYPE>(
- (obu_header_byte >> kObuTypeBitsShift) & kObuTypeBitsMask);
- if (!ValidObuType(obu_header->type)) {
- fprintf(stderr, "Invalid OBU type: %d.\n", obu_header->type);
- return false;
- }
-
- obu_header->has_extension =
- (obu_header_byte >> kObuExtensionFlagBitShift) & kObuExtensionFlagBitMask;
- obu_header->has_size_field =
- (obu_header_byte >> kObuHasSizeFieldBitShift) & kObuHasSizeFieldBitMask;
- return true;
-}
-
-bool ParseObuExtensionHeader(uint8_t ext_header_byte, ObuHeader *obu_header) {
- obu_header->temporal_layer_id =
- (ext_header_byte >> kObuExtTemporalIdBitsShift) &
- kObuExtTemporalIdBitsMask;
- obu_header->spatial_layer_id =
- (ext_header_byte >> kObuExtSpatialIdBitsShift) & kObuExtSpatialIdBitsMask;
-
- return true;
-}
-
-void PrintObuHeader(const ObuHeader *header) {
- printf(
- " OBU type: %s\n"
- " extension: %s\n",
- aom_obu_type_to_string(static_cast<OBU_TYPE>(header->type)),
- header->has_extension ? "yes" : "no");
- if (header->has_extension) {
- printf(
- " temporal_id: %d\n"
- " spatial_id: %d\n",
- header->temporal_layer_id, header->temporal_layer_id);
- }
-}
-
-bool DumpObu(const uint8_t *data, int length, int *obu_overhead_bytes) {
- const int kObuHeaderSizeBytes = 1;
- const int kMinimumBytesRequired = 1 + kObuHeaderSizeBytes;
- int consumed = 0;
- int obu_overhead = 0;
- ObuHeader obu_header;
- while (consumed < length) {
- const int remaining = length - consumed;
- if (remaining < kMinimumBytesRequired) {
- fprintf(stderr,
- "OBU parse error. Did not consume all data, %d bytes remain.\n",
- remaining);
- return false;
- }
-
- int obu_header_size = 0;
-
- memset(&obu_header, 0, sizeof(obu_header));
- const uint8_t obu_header_byte = *(data + consumed);
- if (!ParseObuHeader(obu_header_byte, &obu_header)) {
- fprintf(stderr, "OBU parsing failed at offset %d.\n", consumed);
- return false;
- }
-
- ++obu_overhead;
- ++obu_header_size;
-
- if (obu_header.has_extension) {
- const uint8_t obu_ext_header_byte =
- *(data + consumed + kObuHeaderSizeBytes);
- if (!ParseObuExtensionHeader(obu_ext_header_byte, &obu_header)) {
- fprintf(stderr, "OBU extension parsing failed at offset %d.\n",
- consumed + kObuHeaderSizeBytes);
- return false;
- }
-
- ++obu_overhead;
- ++obu_header_size;
- }
-
- PrintObuHeader(&obu_header);
-
- uint64_t obu_size = 0;
- size_t length_field_size = 0;
- if (aom_uleb_decode(data + consumed + obu_header_size,
- remaining - obu_header_size, &obu_size,
- &length_field_size) != 0) {
- fprintf(stderr, "OBU size parsing failed at offset %d.\n",
- consumed + obu_header_size);
- return false;
- }
- int current_obu_length = static_cast<int>(obu_size);
- if (obu_header_size + static_cast<int>(length_field_size) +
- current_obu_length >
- remaining) {
- fprintf(stderr, "OBU parsing failed: not enough OBU data.\n");
- return false;
- }
- consumed += obu_header_size + static_cast<int>(length_field_size) +
- current_obu_length;
- printf(" length: %d\n",
- static_cast<int>(obu_header_size + length_field_size +
- current_obu_length));
- }
-
- if (obu_overhead_bytes != nullptr) *obu_overhead_bytes = obu_overhead;
- printf(" TU size: %d\n", consumed);
-
- return true;
-}
-
-} // namespace aom_tools
diff --git a/third_party/aom/tools/obu_parser.h b/third_party/aom/tools/obu_parser.h
deleted file mode 100644
index 1d7d2d794..000000000
--- a/third_party/aom/tools/obu_parser.h
+++ /dev/null
@@ -1,27 +0,0 @@
-/*
- * Copyright (c) 2017, Alliance for Open Media. All rights reserved
- *
- * This source code is subject to the terms of the BSD 2 Clause License and
- * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
- * was not distributed with this source code in the LICENSE file, you can
- * obtain it at www.aomedia.org/license/software. If the Alliance for Open
- * Media Patent License 1.0 was not distributed with this source code in the
- * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
- */
-
-#ifndef AOM_TOOLS_OBU_PARSER_H_
-#define AOM_TOOLS_OBU_PARSER_H_
-
-#include <cstdint>
-
-namespace aom_tools {
-
-// Print information obtained from OBU(s) in data until data is exhausted or an
-// error occurs. Returns true when all data is consumed successfully, and
-// optionally reports OBU storage overhead via obu_overhead_bytes when the
-// pointer is non-null.
-bool DumpObu(const uint8_t *data, int length, int *obu_overhead_bytes);
-
-} // namespace aom_tools
-
-#endif // AOM_TOOLS_OBU_PARSER_H_
diff --git a/third_party/aom/tools/txfm_analyzer/txfm_gen_code.cc b/third_party/aom/tools/txfm_analyzer/txfm_gen_code.cc
deleted file mode 100644
index 7c5400b91..000000000
--- a/third_party/aom/tools/txfm_analyzer/txfm_gen_code.cc
+++ /dev/null
@@ -1,580 +0,0 @@
-/*
- * Copyright (c) 2018, Alliance for Open Media. All rights reserved
- *
- * This source code is subject to the terms of the BSD 2 Clause License and
- * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
- * was not distributed with this source code in the LICENSE file, you can
- * obtain it at www.aomedia.org/license/software. If the Alliance for Open
- * Media Patent License 1.0 was not distributed with this source code in the
- * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
- */
-
-#include <stdio.h>
-#include <stdlib.h>
-#include <math.h>
-#include <float.h>
-#include <string.h>
-
-#include "tools/txfm_analyzer/txfm_graph.h"
-
-typedef enum CODE_TYPE {
- CODE_TYPE_C,
- CODE_TYPE_SSE2,
- CODE_TYPE_SSE4_1
-} CODE_TYPE;
-
-int get_cos_idx(double value, int mod) {
- return round(acos(fabs(value)) / PI * mod);
-}
-
-char *cos_text_arr(double value, int mod, char *text, int size) {
- int num = get_cos_idx(value, mod);
- if (value < 0) {
- snprintf(text, size, "-cospi[%2d]", num);
- } else {
- snprintf(text, size, " cospi[%2d]", num);
- }
-
- if (num == 0)
- printf("v: %f -> %d/%d v==-1 is %d\n", value, num, mod, value == -1);
-
- return text;
-}
-
-char *cos_text_sse2(double w0, double w1, int mod, char *text, int size) {
- int idx0 = get_cos_idx(w0, mod);
- int idx1 = get_cos_idx(w1, mod);
- char p[] = "p";
- char n[] = "m";
- char *sgn0 = w0 < 0 ? n : p;
- char *sgn1 = w1 < 0 ? n : p;
- snprintf(text, size, "cospi_%s%02d_%s%02d", sgn0, idx0, sgn1, idx1);
- return text;
-}
-
-char *cos_text_sse4_1(double w, int mod, char *text, int size) {
- int idx = get_cos_idx(w, mod);
- char p[] = "p";
- char n[] = "m";
- char *sgn = w < 0 ? n : p;
- snprintf(text, size, "cospi_%s%02d", sgn, idx);
- return text;
-}
-
-void node_to_code_c(Node *node, const char *buf0, const char *buf1) {
- int cnt = 0;
- for (int i = 0; i < 2; i++) {
- if (fabs(node->inWeight[i]) == 1 || fabs(node->inWeight[i]) == 0) cnt++;
- }
- if (cnt == 2) {
- int cnt2 = 0;
- printf(" %s[%d] =", buf1, node->nodeIdx);
- for (int i = 0; i < 2; i++) {
- if (fabs(node->inWeight[i]) == 1) {
- cnt2++;
- }
- }
- if (cnt2 == 2) {
- printf(" apply_value(");
- }
- int cnt1 = 0;
- for (int i = 0; i < 2; i++) {
- if (node->inWeight[i] == 1) {
- if (cnt1 > 0)
- printf(" + %s[%d]", buf0, node->inNodeIdx[i]);
- else
- printf(" %s[%d]", buf0, node->inNodeIdx[i]);
- cnt1++;
- } else if (node->inWeight[i] == -1) {
- if (cnt1 > 0)
- printf(" - %s[%d]", buf0, node->inNodeIdx[i]);
- else
- printf("-%s[%d]", buf0, node->inNodeIdx[i]);
- cnt1++;
- }
- }
- if (cnt2 == 2) {
- printf(", stage_range[stage])");
- }
- printf(";\n");
- } else {
- char w0[100];
- char w1[100];
- printf(
- " %s[%d] = half_btf(%s, %s[%d], %s, %s[%d], "
- "cos_bit);\n",
- buf1, node->nodeIdx, cos_text_arr(node->inWeight[0], COS_MOD, w0, 100),
- buf0, node->inNodeIdx[0],
- cos_text_arr(node->inWeight[1], COS_MOD, w1, 100), buf0,
- node->inNodeIdx[1]);
- }
-}
-
-void gen_code_c(Node *node, int stage_num, int node_num, TYPE_TXFM type) {
- char *fun_name = new char[100];
- get_fun_name(fun_name, 100, type, node_num);
-
- printf("\n");
- printf(
- "void av1_%s(const int32_t *input, int32_t *output, int8_t cos_bit, "
- "const int8_t* stage_range) "
- "{\n",
- fun_name);
- printf(" assert(output != input);\n");
- printf(" const int32_t size = %d;\n", node_num);
- printf(" const int32_t *cospi = cospi_arr(cos_bit);\n");
- printf("\n");
-
- printf(" int32_t stage = 0;\n");
- printf(" int32_t *bf0, *bf1;\n");
- printf(" int32_t step[%d];\n", node_num);
-
- const char *buf0 = "bf0";
- const char *buf1 = "bf1";
- const char *input = "input";
-
- int si = 0;
- printf("\n");
- printf(" // stage %d;\n", si);
- printf(" apply_range(stage, input, %s, size, stage_range[stage]);\n", input);
-
- si = 1;
- printf("\n");
- printf(" // stage %d;\n", si);
- printf(" stage++;\n");
- if (si % 2 == (stage_num - 1) % 2) {
- printf(" %s = output;\n", buf1);
- } else {
- printf(" %s = step;\n", buf1);
- }
-
- for (int ni = 0; ni < node_num; ni++) {
- int idx = get_idx(si, ni, node_num);
- node_to_code_c(node + idx, input, buf1);
- }
-
- printf(" range_check_buf(stage, input, bf1, size, stage_range[stage]);\n");
-
- for (int si = 2; si < stage_num; si++) {
- printf("\n");
- printf(" // stage %d\n", si);
- printf(" stage++;\n");
- if (si % 2 == (stage_num - 1) % 2) {
- printf(" %s = step;\n", buf0);
- printf(" %s = output;\n", buf1);
- } else {
- printf(" %s = output;\n", buf0);
- printf(" %s = step;\n", buf1);
- }
-
- // computation code
- for (int ni = 0; ni < node_num; ni++) {
- int idx = get_idx(si, ni, node_num);
- node_to_code_c(node + idx, buf0, buf1);
- }
-
- if (si != stage_num - 1) {
- printf(
- " range_check_buf(stage, input, bf1, size, stage_range[stage]);\n");
- }
- }
- printf(" apply_range(stage, input, output, size, stage_range[stage]);\n");
- printf("}\n");
-}
-
-void single_node_to_code_sse2(Node *node, const char *buf0, const char *buf1) {
- printf(" %s[%2d] =", buf1, node->nodeIdx);
- if (node->inWeight[0] == 1 && node->inWeight[1] == 1) {
- printf(" _mm_adds_epi16(%s[%d], %s[%d])", buf0, node->inNodeIdx[0], buf0,
- node->inNodeIdx[1]);
- } else if (node->inWeight[0] == 1 && node->inWeight[1] == -1) {
- printf(" _mm_subs_epi16(%s[%d], %s[%d])", buf0, node->inNodeIdx[0], buf0,
- node->inNodeIdx[1]);
- } else if (node->inWeight[0] == -1 && node->inWeight[1] == 1) {
- printf(" _mm_subs_epi16(%s[%d], %s[%d])", buf0, node->inNodeIdx[1], buf0,
- node->inNodeIdx[0]);
- } else if (node->inWeight[0] == 1 && node->inWeight[1] == 0) {
- printf(" %s[%d]", buf0, node->inNodeIdx[0]);
- } else if (node->inWeight[0] == 0 && node->inWeight[1] == 1) {
- printf(" %s[%d]", buf0, node->inNodeIdx[1]);
- } else if (node->inWeight[0] == -1 && node->inWeight[1] == 0) {
- printf(" _mm_subs_epi16(__zero, %s[%d])", buf0, node->inNodeIdx[0]);
- } else if (node->inWeight[0] == 0 && node->inWeight[1] == -1) {
- printf(" _mm_subs_epi16(__zero, %s[%d])", buf0, node->inNodeIdx[1]);
- }
- printf(";\n");
-}
-
-void pair_node_to_code_sse2(Node *node, Node *partnerNode, const char *buf0,
- const char *buf1) {
- char temp0[100];
- char temp1[100];
- // btf_16_sse2_type0(w0, w1, in0, in1, out0, out1)
- if (node->inNodeIdx[0] != partnerNode->inNodeIdx[0])
- printf(" btf_16_sse2(%s, %s, %s[%d], %s[%d], %s[%d], %s[%d]);\n",
- cos_text_sse2(node->inWeight[0], node->inWeight[1], COS_MOD, temp0,
- 100),
- cos_text_sse2(partnerNode->inWeight[1], partnerNode->inWeight[0],
- COS_MOD, temp1, 100),
- buf0, node->inNodeIdx[0], buf0, node->inNodeIdx[1], buf1,
- node->nodeIdx, buf1, partnerNode->nodeIdx);
- else
- printf(" btf_16_sse2(%s, %s, %s[%d], %s[%d], %s[%d], %s[%d]);\n",
- cos_text_sse2(node->inWeight[0], node->inWeight[1], COS_MOD, temp0,
- 100),
- cos_text_sse2(partnerNode->inWeight[0], partnerNode->inWeight[1],
- COS_MOD, temp1, 100),
- buf0, node->inNodeIdx[0], buf0, node->inNodeIdx[1], buf1,
- node->nodeIdx, buf1, partnerNode->nodeIdx);
-}
-
-Node *get_partner_node(Node *node) {
- int diff = node->inNode[1]->nodeIdx - node->nodeIdx;
- return node + diff;
-}
-
-void node_to_code_sse2(Node *node, const char *buf0, const char *buf1) {
- int cnt = 0;
- int cnt1 = 0;
- if (node->visited == 0) {
- node->visited = 1;
- for (int i = 0; i < 2; i++) {
- if (fabs(node->inWeight[i]) == 1 || fabs(node->inWeight[i]) == 0) cnt++;
- if (fabs(node->inWeight[i]) == 1) cnt1++;
- }
- if (cnt == 2) {
- if (cnt1 == 2) {
- // has a partner
- Node *partnerNode = get_partner_node(node);
- partnerNode->visited = 1;
- single_node_to_code_sse2(node, buf0, buf1);
- single_node_to_code_sse2(partnerNode, buf0, buf1);
- } else {
- single_node_to_code_sse2(node, buf0, buf1);
- }
- } else {
- Node *partnerNode = get_partner_node(node);
- partnerNode->visited = 1;
- pair_node_to_code_sse2(node, partnerNode, buf0, buf1);
- }
- }
-}
-
-void gen_cospi_list_sse2(Node *node, int stage_num, int node_num) {
- int visited[65][65][2][2];
- memset(visited, 0, sizeof(visited));
- char text[100];
- char text1[100];
- char text2[100];
- int size = 100;
- printf("\n");
- for (int si = 1; si < stage_num; si++) {
- for (int ni = 0; ni < node_num; ni++) {
- int idx = get_idx(si, ni, node_num);
- int cnt = 0;
- Node *node0 = node + idx;
- if (node0->visited == 0) {
- node0->visited = 1;
- for (int i = 0; i < 2; i++) {
- if (fabs(node0->inWeight[i]) == 1 || fabs(node0->inWeight[i]) == 0)
- cnt++;
- }
- if (cnt != 2) {
- {
- double w0 = node0->inWeight[0];
- double w1 = node0->inWeight[1];
- int idx0 = get_cos_idx(w0, COS_MOD);
- int idx1 = get_cos_idx(w1, COS_MOD);
- int sgn0 = w0 < 0 ? 1 : 0;
- int sgn1 = w1 < 0 ? 1 : 0;
-
- if (!visited[idx0][idx1][sgn0][sgn1]) {
- visited[idx0][idx1][sgn0][sgn1] = 1;
- printf(" __m128i %s = pair_set_epi16(%s, %s);\n",
- cos_text_sse2(w0, w1, COS_MOD, text, size),
- cos_text_arr(w0, COS_MOD, text1, size),
- cos_text_arr(w1, COS_MOD, text2, size));
- }
- }
- Node *node1 = get_partner_node(node0);
- node1->visited = 1;
- if (node1->inNode[0]->nodeIdx != node0->inNode[0]->nodeIdx) {
- double w0 = node1->inWeight[0];
- double w1 = node1->inWeight[1];
- int idx0 = get_cos_idx(w0, COS_MOD);
- int idx1 = get_cos_idx(w1, COS_MOD);
- int sgn0 = w0 < 0 ? 1 : 0;
- int sgn1 = w1 < 0 ? 1 : 0;
-
- if (!visited[idx1][idx0][sgn1][sgn0]) {
- visited[idx1][idx0][sgn1][sgn0] = 1;
- printf(" __m128i %s = pair_set_epi16(%s, %s);\n",
- cos_text_sse2(w1, w0, COS_MOD, text, size),
- cos_text_arr(w1, COS_MOD, text1, size),
- cos_text_arr(w0, COS_MOD, text2, size));
- }
- } else {
- double w0 = node1->inWeight[0];
- double w1 = node1->inWeight[1];
- int idx0 = get_cos_idx(w0, COS_MOD);
- int idx1 = get_cos_idx(w1, COS_MOD);
- int sgn0 = w0 < 0 ? 1 : 0;
- int sgn1 = w1 < 0 ? 1 : 0;
-
- if (!visited[idx0][idx1][sgn0][sgn1]) {
- visited[idx0][idx1][sgn0][sgn1] = 1;
- printf(" __m128i %s = pair_set_epi16(%s, %s);\n",
- cos_text_sse2(w0, w1, COS_MOD, text, size),
- cos_text_arr(w0, COS_MOD, text1, size),
- cos_text_arr(w1, COS_MOD, text2, size));
- }
- }
- }
- }
- }
- }
-}
-
-void gen_code_sse2(Node *node, int stage_num, int node_num, TYPE_TXFM type) {
- char *fun_name = new char[100];
- get_fun_name(fun_name, 100, type, node_num);
-
- printf("\n");
- printf(
- "void %s_sse2(const __m128i *input, __m128i *output, int8_t cos_bit) "
- "{\n",
- fun_name);
-
- printf(" const int32_t* cospi = cospi_arr(cos_bit);\n");
- printf(" const __m128i __zero = _mm_setzero_si128();\n");
- printf(" const __m128i __rounding = _mm_set1_epi32(1 << (cos_bit - 1));\n");
-
- graph_reset_visited(node, stage_num, node_num);
- gen_cospi_list_sse2(node, stage_num, node_num);
- graph_reset_visited(node, stage_num, node_num);
- for (int si = 1; si < stage_num; si++) {
- char in[100];
- char out[100];
- printf("\n");
- printf(" // stage %d\n", si);
- if (si == 1)
- snprintf(in, 100, "%s", "input");
- else
- snprintf(in, 100, "x%d", si - 1);
- if (si == stage_num - 1) {
- snprintf(out, 100, "%s", "output");
- } else {
- snprintf(out, 100, "x%d", si);
- printf(" __m128i %s[%d];\n", out, node_num);
- }
- // computation code
- for (int ni = 0; ni < node_num; ni++) {
- int idx = get_idx(si, ni, node_num);
- node_to_code_sse2(node + idx, in, out);
- }
- }
-
- printf("}\n");
-}
-void gen_cospi_list_sse4_1(Node *node, int stage_num, int node_num) {
- int visited[65][2];
- memset(visited, 0, sizeof(visited));
- char text[100];
- char text1[100];
- int size = 100;
- printf("\n");
- for (int si = 1; si < stage_num; si++) {
- for (int ni = 0; ni < node_num; ni++) {
- int idx = get_idx(si, ni, node_num);
- Node *node0 = node + idx;
- if (node0->visited == 0) {
- int cnt = 0;
- node0->visited = 1;
- for (int i = 0; i < 2; i++) {
- if (fabs(node0->inWeight[i]) == 1 || fabs(node0->inWeight[i]) == 0)
- cnt++;
- }
- if (cnt != 2) {
- for (int i = 0; i < 2; i++) {
- if (fabs(node0->inWeight[i]) != 1 &&
- fabs(node0->inWeight[i]) != 0) {
- double w = node0->inWeight[i];
- int idx = get_cos_idx(w, COS_MOD);
- int sgn = w < 0 ? 1 : 0;
-
- if (!visited[idx][sgn]) {
- visited[idx][sgn] = 1;
- printf(" __m128i %s = _mm_set1_epi32(%s);\n",
- cos_text_sse4_1(w, COS_MOD, text, size),
- cos_text_arr(w, COS_MOD, text1, size));
- }
- }
- }
- Node *node1 = get_partner_node(node0);
- node1->visited = 1;
- }
- }
- }
- }
-}
-
-void single_node_to_code_sse4_1(Node *node, const char *buf0,
- const char *buf1) {
- printf(" %s[%2d] =", buf1, node->nodeIdx);
- if (node->inWeight[0] == 1 && node->inWeight[1] == 1) {
- printf(" _mm_add_epi32(%s[%d], %s[%d])", buf0, node->inNodeIdx[0], buf0,
- node->inNodeIdx[1]);
- } else if (node->inWeight[0] == 1 && node->inWeight[1] == -1) {
- printf(" _mm_sub_epi32(%s[%d], %s[%d])", buf0, node->inNodeIdx[0], buf0,
- node->inNodeIdx[1]);
- } else if (node->inWeight[0] == -1 && node->inWeight[1] == 1) {
- printf(" _mm_sub_epi32(%s[%d], %s[%d])", buf0, node->inNodeIdx[1], buf0,
- node->inNodeIdx[0]);
- } else if (node->inWeight[0] == 1 && node->inWeight[1] == 0) {
- printf(" %s[%d]", buf0, node->inNodeIdx[0]);
- } else if (node->inWeight[0] == 0 && node->inWeight[1] == 1) {
- printf(" %s[%d]", buf0, node->inNodeIdx[1]);
- } else if (node->inWeight[0] == -1 && node->inWeight[1] == 0) {
- printf(" _mm_sub_epi32(__zero, %s[%d])", buf0, node->inNodeIdx[0]);
- } else if (node->inWeight[0] == 0 && node->inWeight[1] == -1) {
- printf(" _mm_sub_epi32(__zero, %s[%d])", buf0, node->inNodeIdx[1]);
- }
- printf(";\n");
-}
-
-void pair_node_to_code_sse4_1(Node *node, Node *partnerNode, const char *buf0,
- const char *buf1) {
- char temp0[100];
- char temp1[100];
- if (node->inWeight[0] * partnerNode->inWeight[0] < 0) {
- /* type0
- * cos sin
- * sin -cos
- */
- // btf_32_sse2_type0(w0, w1, in0, in1, out0, out1)
- // out0 = w0*in0 + w1*in1
- // out1 = -w0*in1 + w1*in0
- printf(
- " btf_32_type0_sse4_1_new(%s, %s, %s[%d], %s[%d], %s[%d], %s[%d], "
- "__rounding, cos_bit);\n",
- cos_text_sse4_1(node->inWeight[0], COS_MOD, temp0, 100),
- cos_text_sse4_1(node->inWeight[1], COS_MOD, temp1, 100), buf0,
- node->inNodeIdx[0], buf0, node->inNodeIdx[1], buf1, node->nodeIdx, buf1,
- partnerNode->nodeIdx);
- } else {
- /* type1
- * cos sin
- * -sin cos
- */
- // btf_32_sse2_type1(w0, w1, in0, in1, out0, out1)
- // out0 = w0*in0 + w1*in1
- // out1 = w0*in1 - w1*in0
- printf(
- " btf_32_type1_sse4_1_new(%s, %s, %s[%d], %s[%d], %s[%d], %s[%d], "
- "__rounding, cos_bit);\n",
- cos_text_sse4_1(node->inWeight[0], COS_MOD, temp0, 100),
- cos_text_sse4_1(node->inWeight[1], COS_MOD, temp1, 100), buf0,
- node->inNodeIdx[0], buf0, node->inNodeIdx[1], buf1, node->nodeIdx, buf1,
- partnerNode->nodeIdx);
- }
-}
-
-void node_to_code_sse4_1(Node *node, const char *buf0, const char *buf1) {
- int cnt = 0;
- int cnt1 = 0;
- if (node->visited == 0) {
- node->visited = 1;
- for (int i = 0; i < 2; i++) {
- if (fabs(node->inWeight[i]) == 1 || fabs(node->inWeight[i]) == 0) cnt++;
- if (fabs(node->inWeight[i]) == 1) cnt1++;
- }
- if (cnt == 2) {
- if (cnt1 == 2) {
- // has a partner
- Node *partnerNode = get_partner_node(node);
- partnerNode->visited = 1;
- single_node_to_code_sse4_1(node, buf0, buf1);
- single_node_to_code_sse4_1(partnerNode, buf0, buf1);
- } else {
- single_node_to_code_sse2(node, buf0, buf1);
- }
- } else {
- Node *partnerNode = get_partner_node(node);
- partnerNode->visited = 1;
- pair_node_to_code_sse4_1(node, partnerNode, buf0, buf1);
- }
- }
-}
-
-void gen_code_sse4_1(Node *node, int stage_num, int node_num, TYPE_TXFM type) {
- char *fun_name = new char[100];
- get_fun_name(fun_name, 100, type, node_num);
-
- printf("\n");
- printf(
- "void %s_sse4_1(const __m128i *input, __m128i *output, int8_t cos_bit) "
- "{\n",
- fun_name);
-
- printf(" const int32_t* cospi = cospi_arr(cos_bit);\n");
- printf(" const __m128i __zero = _mm_setzero_si128();\n");
- printf(" const __m128i __rounding = _mm_set1_epi32(1 << (cos_bit - 1));\n");
-
- graph_reset_visited(node, stage_num, node_num);
- gen_cospi_list_sse4_1(node, stage_num, node_num);
- graph_reset_visited(node, stage_num, node_num);
- for (int si = 1; si < stage_num; si++) {
- char in[100];
- char out[100];
- printf("\n");
- printf(" // stage %d\n", si);
- if (si == 1)
- snprintf(in, 100, "%s", "input");
- else
- snprintf(in, 100, "x%d", si - 1);
- if (si == stage_num - 1) {
- snprintf(out, 100, "%s", "output");
- } else {
- snprintf(out, 100, "x%d", si);
- printf(" __m128i %s[%d];\n", out, node_num);
- }
- // computation code
- for (int ni = 0; ni < node_num; ni++) {
- int idx = get_idx(si, ni, node_num);
- node_to_code_sse4_1(node + idx, in, out);
- }
- }
-
- printf("}\n");
-}
-
-void gen_hybrid_code(CODE_TYPE code_type, TYPE_TXFM txfm_type, int node_num) {
- int stage_num = get_hybrid_stage_num(txfm_type, node_num);
-
- Node *node = new Node[node_num * stage_num];
- init_graph(node, stage_num, node_num);
-
- gen_hybrid_graph_1d(node, stage_num, node_num, 0, 0, node_num, txfm_type);
-
- switch (code_type) {
- case CODE_TYPE_C: gen_code_c(node, stage_num, node_num, txfm_type); break;
- case CODE_TYPE_SSE2:
- gen_code_sse2(node, stage_num, node_num, txfm_type);
- break;
- case CODE_TYPE_SSE4_1:
- gen_code_sse4_1(node, stage_num, node_num, txfm_type);
- break;
- }
-
- delete[] node;
-}
-
-int main(int argc, char **argv) {
- CODE_TYPE code_type = CODE_TYPE_SSE4_1;
- for (int txfm_type = TYPE_DCT; txfm_type < TYPE_LAST; txfm_type++) {
- for (int node_num = 4; node_num <= 64; node_num *= 2) {
- gen_hybrid_code(code_type, (TYPE_TXFM)txfm_type, node_num);
- }
- }
- return 0;
-}
diff --git a/third_party/aom/tools/txfm_analyzer/txfm_graph.cc b/third_party/aom/tools/txfm_analyzer/txfm_graph.cc
deleted file mode 100644
index a24906100..000000000
--- a/third_party/aom/tools/txfm_analyzer/txfm_graph.cc
+++ /dev/null
@@ -1,943 +0,0 @@
-/*
- * Copyright (c) 2018, Alliance for Open Media. All rights reserved
- *
- * This source code is subject to the terms of the BSD 2 Clause License and
- * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
- * was not distributed with this source code in the LICENSE file, you can
- * obtain it at www.aomedia.org/license/software. If the Alliance for Open
- * Media Patent License 1.0 was not distributed with this source code in the
- * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
- */
-
-#include "tools/txfm_analyzer/txfm_graph.h"
-
-#include <stdio.h>
-#include <stdlib.h>
-#include <math.h>
-
-typedef struct Node Node;
-
-void get_fun_name(char *str_fun_name, int str_buf_size, const TYPE_TXFM type,
- const int txfm_size) {
- if (type == TYPE_DCT)
- snprintf(str_fun_name, str_buf_size, "fdct%d_new", txfm_size);
- else if (type == TYPE_ADST)
- snprintf(str_fun_name, str_buf_size, "fadst%d_new", txfm_size);
- else if (type == TYPE_IDCT)
- snprintf(str_fun_name, str_buf_size, "idct%d_new", txfm_size);
- else if (type == TYPE_IADST)
- snprintf(str_fun_name, str_buf_size, "iadst%d_new", txfm_size);
-}
-
-void get_txfm_type_name(char *str_fun_name, int str_buf_size,
- const TYPE_TXFM type, const int txfm_size) {
- if (type == TYPE_DCT)
- snprintf(str_fun_name, str_buf_size, "TXFM_TYPE_DCT%d", txfm_size);
- else if (type == TYPE_ADST)
- snprintf(str_fun_name, str_buf_size, "TXFM_TYPE_ADST%d", txfm_size);
- else if (type == TYPE_IDCT)
- snprintf(str_fun_name, str_buf_size, "TXFM_TYPE_DCT%d", txfm_size);
- else if (type == TYPE_IADST)
- snprintf(str_fun_name, str_buf_size, "TXFM_TYPE_ADST%d", txfm_size);
-}
-
-void get_hybrid_2d_type_name(char *buf, int buf_size, const TYPE_TXFM type0,
- const TYPE_TXFM type1, const int txfm_size0,
- const int txfm_size1) {
- if (type0 == TYPE_DCT && type1 == TYPE_DCT)
- snprintf(buf, buf_size, "_dct_dct_%dx%d", txfm_size1, txfm_size0);
- else if (type0 == TYPE_DCT && type1 == TYPE_ADST)
- snprintf(buf, buf_size, "_dct_adst_%dx%d", txfm_size1, txfm_size0);
- else if (type0 == TYPE_ADST && type1 == TYPE_ADST)
- snprintf(buf, buf_size, "_adst_adst_%dx%d", txfm_size1, txfm_size0);
- else if (type0 == TYPE_ADST && type1 == TYPE_DCT)
- snprintf(buf, buf_size, "_adst_dct_%dx%d", txfm_size1, txfm_size0);
-}
-
-TYPE_TXFM get_inv_type(TYPE_TXFM type) {
- if (type == TYPE_DCT)
- return TYPE_IDCT;
- else if (type == TYPE_ADST)
- return TYPE_IADST;
- else if (type == TYPE_IDCT)
- return TYPE_DCT;
- else if (type == TYPE_IADST)
- return TYPE_ADST;
- else
- return TYPE_LAST;
-}
-
-void reference_dct_1d(double *in, double *out, int size) {
- const double kInvSqrt2 = 0.707106781186547524400844362104;
- for (int k = 0; k < size; k++) {
- out[k] = 0; // initialize out[k]
- for (int n = 0; n < size; n++) {
- out[k] += in[n] * cos(PI * (2 * n + 1) * k / (2 * size));
- }
- if (k == 0) out[k] = out[k] * kInvSqrt2;
- }
-}
-
-void reference_dct_2d(double *in, double *out, int size) {
- double *tempOut = new double[size * size];
- // dct each row: in -> out
- for (int r = 0; r < size; r++) {
- reference_dct_1d(in + r * size, out + r * size, size);
- }
-
- for (int r = 0; r < size; r++) {
- // out ->tempOut
- for (int c = 0; c < size; c++) {
- tempOut[r * size + c] = out[c * size + r];
- }
- }
- for (int r = 0; r < size; r++) {
- reference_dct_1d(tempOut + r * size, out + r * size, size);
- }
- delete[] tempOut;
-}
-
-void reference_adst_1d(double *in, double *out, int size) {
- for (int k = 0; k < size; k++) {
- out[k] = 0; // initialize out[k]
- for (int n = 0; n < size; n++) {
- out[k] += in[n] * sin(PI * (2 * n + 1) * (2 * k + 1) / (4 * size));
- }
- }
-}
-
-void reference_hybrid_2d(double *in, double *out, int size, int type0,
- int type1) {
- double *tempOut = new double[size * size];
- // dct each row: in -> out
- for (int r = 0; r < size; r++) {
- if (type0 == TYPE_DCT)
- reference_dct_1d(in + r * size, out + r * size, size);
- else
- reference_adst_1d(in + r * size, out + r * size, size);
- }
-
- for (int r = 0; r < size; r++) {
- // out ->tempOut
- for (int c = 0; c < size; c++) {
- tempOut[r * size + c] = out[c * size + r];
- }
- }
- for (int r = 0; r < size; r++) {
- if (type1 == TYPE_DCT)
- reference_dct_1d(tempOut + r * size, out + r * size, size);
- else
- reference_adst_1d(tempOut + r * size, out + r * size, size);
- }
- delete[] tempOut;
-}
-
-void reference_hybrid_2d_new(double *in, double *out, int size0, int size1,
- int type0, int type1) {
- double *tempOut = new double[size0 * size1];
- // dct each row: in -> out
- for (int r = 0; r < size1; r++) {
- if (type0 == TYPE_DCT)
- reference_dct_1d(in + r * size0, out + r * size0, size0);
- else
- reference_adst_1d(in + r * size0, out + r * size0, size0);
- }
-
- for (int r = 0; r < size1; r++) {
- // out ->tempOut
- for (int c = 0; c < size0; c++) {
- tempOut[c * size1 + r] = out[r * size0 + c];
- }
- }
- for (int r = 0; r < size0; r++) {
- if (type1 == TYPE_DCT)
- reference_dct_1d(tempOut + r * size1, out + r * size1, size1);
- else
- reference_adst_1d(tempOut + r * size1, out + r * size1, size1);
- }
- delete[] tempOut;
-}
-
-unsigned int get_max_bit(unsigned int x) {
- int max_bit = -1;
- while (x) {
- x = x >> 1;
- max_bit++;
- }
- return max_bit;
-}
-
-unsigned int bitwise_reverse(unsigned int x, int max_bit) {
- x = ((x >> 16) & 0x0000ffff) | ((x & 0x0000ffff) << 16);
- x = ((x >> 8) & 0x00ff00ff) | ((x & 0x00ff00ff) << 8);
- x = ((x >> 4) & 0x0f0f0f0f) | ((x & 0x0f0f0f0f) << 4);
- x = ((x >> 2) & 0x33333333) | ((x & 0x33333333) << 2);
- x = ((x >> 1) & 0x55555555) | ((x & 0x55555555) << 1);
- x = x >> (31 - max_bit);
- return x;
-}
-
-int get_idx(int ri, int ci, int cSize) { return ri * cSize + ci; }
-
-void add_node(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int in, double w) {
- int outIdx = get_idx(stage_idx, node_idx, node_num);
- int inIdx = get_idx(stage_idx - 1, in, node_num);
- int idx = node[outIdx].inNodeNum;
- if (idx < 2) {
- node[outIdx].inNode[idx] = &node[inIdx];
- node[outIdx].inNodeIdx[idx] = in;
- node[outIdx].inWeight[idx] = w;
- idx++;
- node[outIdx].inNodeNum = idx;
- } else {
- printf("Error: inNode is full");
- }
-}
-
-void connect_node(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int in0, double w0, int in1, double w1) {
- int outIdx = get_idx(stage_idx, node_idx, node_num);
- int inIdx0 = get_idx(stage_idx - 1, in0, node_num);
- int inIdx1 = get_idx(stage_idx - 1, in1, node_num);
-
- int idx = 0;
- // if(w0 != 0) {
- node[outIdx].inNode[idx] = &node[inIdx0];
- node[outIdx].inNodeIdx[idx] = in0;
- node[outIdx].inWeight[idx] = w0;
- idx++;
- //}
-
- // if(w1 != 0) {
- node[outIdx].inNode[idx] = &node[inIdx1];
- node[outIdx].inNodeIdx[idx] = in1;
- node[outIdx].inWeight[idx] = w1;
- idx++;
- //}
-
- node[outIdx].inNodeNum = idx;
-}
-
-void propagate(Node *node, int stage_num, int node_num, int stage_idx) {
- for (int ni = 0; ni < node_num; ni++) {
- int outIdx = get_idx(stage_idx, ni, node_num);
- node[outIdx].value = 0;
- for (int k = 0; k < node[outIdx].inNodeNum; k++) {
- node[outIdx].value +=
- node[outIdx].inNode[k]->value * node[outIdx].inWeight[k];
- }
- }
-}
-
-int64_t round_shift(int64_t value, int bit) {
- if (bit > 0) {
- if (value < 0) {
- return -round_shift(-value, bit);
- } else {
- return (value + (1 << (bit - 1))) >> bit;
- }
- } else {
- return value << (-bit);
- }
-}
-
-void round_shift_array(int32_t *arr, int size, int bit) {
- if (bit == 0) {
- return;
- } else {
- for (int i = 0; i < size; i++) {
- arr[i] = round_shift(arr[i], bit);
- }
- }
-}
-
-void graph_reset_visited(Node *node, int stage_num, int node_num) {
- for (int si = 0; si < stage_num; si++) {
- for (int ni = 0; ni < node_num; ni++) {
- int idx = get_idx(si, ni, node_num);
- node[idx].visited = 0;
- }
- }
-}
-
-void estimate_value(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int estimate_bit) {
- if (stage_idx > 0) {
- int outIdx = get_idx(stage_idx, node_idx, node_num);
- int64_t out = 0;
- node[outIdx].value = 0;
- for (int k = 0; k < node[outIdx].inNodeNum; k++) {
- int64_t w = round(node[outIdx].inWeight[k] * (1 << estimate_bit));
- int64_t v = round(node[outIdx].inNode[k]->value);
- out += v * w;
- }
- node[outIdx].value = round_shift(out, estimate_bit);
- }
-}
-
-void amplify_value(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int amplify_bit) {
- int outIdx = get_idx(stage_idx, node_idx, node_num);
- node[outIdx].value = round_shift(round(node[outIdx].value), -amplify_bit);
-}
-
-void propagate_estimate_amlify(Node *node, int stage_num, int node_num,
- int stage_idx, int amplify_bit,
- int estimate_bit) {
- for (int ni = 0; ni < node_num; ni++) {
- estimate_value(node, stage_num, node_num, stage_idx, ni, estimate_bit);
- amplify_value(node, stage_num, node_num, stage_idx, ni, amplify_bit);
- }
-}
-
-void init_graph(Node *node, int stage_num, int node_num) {
- for (int si = 0; si < stage_num; si++) {
- for (int ni = 0; ni < node_num; ni++) {
- int outIdx = get_idx(si, ni, node_num);
- node[outIdx].stageIdx = si;
- node[outIdx].nodeIdx = ni;
- node[outIdx].value = 0;
- node[outIdx].inNodeNum = 0;
- if (si >= 1) {
- connect_node(node, stage_num, node_num, si, ni, ni, 1, ni, 0);
- }
- }
- }
-}
-
-void gen_B_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N, int star) {
- for (int i = 0; i < N / 2; i++) {
- int out = node_idx + i;
- int in1 = node_idx + N - 1 - i;
- if (star == 1) {
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out, -1, in1,
- 1);
- } else {
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out, 1, in1,
- 1);
- }
- }
- for (int i = N / 2; i < N; i++) {
- int out = node_idx + i;
- int in1 = node_idx + N - 1 - i;
- if (star == 1) {
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out, 1, in1,
- 1);
- } else {
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out, -1, in1,
- 1);
- }
- }
-}
-
-void gen_P_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N) {
- int max_bit = get_max_bit(N - 1);
- for (int i = 0; i < N; i++) {
- int out = node_idx + bitwise_reverse(i, max_bit);
- int in = node_idx + i;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
-}
-
-void gen_type1_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N) {
- int max_bit = get_max_bit(N);
- for (int ni = 0; ni < N / 2; ni++) {
- int ai = bitwise_reverse(N + ni, max_bit);
- int out = node_idx + ni;
- int in1 = node_idx + N - ni - 1;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out,
- sin(PI * ai / (2 * 2 * N)), in1, cos(PI * ai / (2 * 2 * N)));
- }
- for (int ni = N / 2; ni < N; ni++) {
- int ai = bitwise_reverse(N + ni, max_bit);
- int out = node_idx + ni;
- int in1 = node_idx + N - ni - 1;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out,
- cos(PI * ai / (2 * 2 * N)), in1, -sin(PI * ai / (2 * 2 * N)));
- }
-}
-
-void gen_type2_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N) {
- for (int ni = 0; ni < N / 4; ni++) {
- int out = node_idx + ni;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out, 1, out, 0);
- }
-
- for (int ni = N / 4; ni < N / 2; ni++) {
- int out = node_idx + ni;
- int in1 = node_idx + N - ni - 1;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out,
- -cos(PI / 4), in1, cos(-PI / 4));
- }
-
- for (int ni = N / 2; ni < N * 3 / 4; ni++) {
- int out = node_idx + ni;
- int in1 = node_idx + N - ni - 1;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out,
- cos(-PI / 4), in1, cos(PI / 4));
- }
-
- for (int ni = N * 3 / 4; ni < N; ni++) {
- int out = node_idx + ni;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out, 1, out, 0);
- }
-}
-
-void gen_type3_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int idx, int N) {
- // TODO(angiebird): Simplify and clarify this function
-
- int i = 2 * N / (1 << (idx / 2));
- int max_bit =
- get_max_bit(i / 2) - 1; // the max_bit counts on i/2 instead of N here
- int N_over_i = 2 << (idx / 2);
-
- for (int nj = 0; nj < N / 2; nj += N_over_i) {
- int j = nj / (N_over_i);
- int kj = bitwise_reverse(i / 4 + j, max_bit);
- // printf("kj = %d\n", kj);
-
- // I_N/2i --- 0
- int offset = nj;
- for (int ni = 0; ni < N_over_i / 4; ni++) {
- int out = node_idx + offset + ni;
- int in = out;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
-
- // -C_Kj/i --- S_Kj/i
- offset += N_over_i / 4;
- for (int ni = 0; ni < N_over_i / 4; ni++) {
- int out = node_idx + offset + ni;
- int in0 = out;
- double w0 = -cos(kj * PI / i);
- int in1 = N - (offset + ni) - 1 + node_idx;
- double w1 = sin(kj * PI / i);
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in0, w0, in1,
- w1);
- }
-
- // S_kj/i --- -C_Kj/i
- offset += N_over_i / 4;
- for (int ni = 0; ni < N_over_i / 4; ni++) {
- int out = node_idx + offset + ni;
- int in0 = out;
- double w0 = -sin(kj * PI / i);
- int in1 = N - (offset + ni) - 1 + node_idx;
- double w1 = -cos(kj * PI / i);
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in0, w0, in1,
- w1);
- }
-
- // I_N/2i --- 0
- offset += N_over_i / 4;
- for (int ni = 0; ni < N_over_i / 4; ni++) {
- int out = node_idx + offset + ni;
- int in = out;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
- }
-
- for (int nj = N / 2; nj < N; nj += N_over_i) {
- int j = nj / N_over_i;
- int kj = bitwise_reverse(i / 4 + j, max_bit);
-
- // I_N/2i --- 0
- int offset = nj;
- for (int ni = 0; ni < N_over_i / 4; ni++) {
- int out = node_idx + offset + ni;
- int in = out;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
-
- // C_kj/i --- -S_Kj/i
- offset += N_over_i / 4;
- for (int ni = 0; ni < N_over_i / 4; ni++) {
- int out = node_idx + offset + ni;
- int in0 = out;
- double w0 = cos(kj * PI / i);
- int in1 = N - (offset + ni) - 1 + node_idx;
- double w1 = -sin(kj * PI / i);
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in0, w0, in1,
- w1);
- }
-
- // S_kj/i --- C_Kj/i
- offset += N_over_i / 4;
- for (int ni = 0; ni < N_over_i / 4; ni++) {
- int out = node_idx + offset + ni;
- int in0 = out;
- double w0 = sin(kj * PI / i);
- int in1 = N - (offset + ni) - 1 + node_idx;
- double w1 = cos(kj * PI / i);
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in0, w0, in1,
- w1);
- }
-
- // I_N/2i --- 0
- offset += N_over_i / 4;
- for (int ni = 0; ni < N_over_i / 4; ni++) {
- int out = node_idx + offset + ni;
- int in = out;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
- }
-}
-
-void gen_type4_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int idx, int N) {
- int B_size = 1 << ((idx + 1) / 2);
- for (int ni = 0; ni < N; ni += B_size) {
- gen_B_graph(node, stage_num, node_num, stage_idx, node_idx + ni, B_size,
- (ni / B_size) % 2);
- }
-}
-
-void gen_R_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N) {
- int max_idx = 2 * (get_max_bit(N) + 1) - 3;
- for (int idx = 0; idx < max_idx; idx++) {
- int s = stage_idx + max_idx - idx - 1;
- if (idx == 0) {
- // type 1
- gen_type1_graph(node, stage_num, node_num, s, node_idx, N);
- } else if (idx == max_idx - 1) {
- // type 2
- gen_type2_graph(node, stage_num, node_num, s, node_idx, N);
- } else if ((idx + 1) % 2 == 0) {
- // type 4
- gen_type4_graph(node, stage_num, node_num, s, node_idx, idx, N);
- } else if ((idx + 1) % 2 == 1) {
- // type 3
- gen_type3_graph(node, stage_num, node_num, s, node_idx, idx, N);
- } else {
- printf("check gen_R_graph()\n");
- }
- }
-}
-
-void gen_DCT_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N) {
- if (N > 2) {
- gen_B_graph(node, stage_num, node_num, stage_idx, node_idx, N, 0);
- gen_DCT_graph(node, stage_num, node_num, stage_idx + 1, node_idx, N / 2);
- gen_R_graph(node, stage_num, node_num, stage_idx + 1, node_idx + N / 2,
- N / 2);
- } else {
- // generate dct_2
- connect_node(node, stage_num, node_num, stage_idx + 1, node_idx, node_idx,
- cos(PI / 4), node_idx + 1, cos(PI / 4));
- connect_node(node, stage_num, node_num, stage_idx + 1, node_idx + 1,
- node_idx + 1, -cos(PI / 4), node_idx, cos(PI / 4));
- }
-}
-
-int get_dct_stage_num(int size) { return 2 * get_max_bit(size); }
-
-void gen_DCT_graph_1d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int dct_node_num) {
- gen_DCT_graph(node, stage_num, node_num, stage_idx, node_idx, dct_node_num);
- int dct_stage_num = get_dct_stage_num(dct_node_num);
- gen_P_graph(node, stage_num, node_num, stage_idx + dct_stage_num - 2,
- node_idx, dct_node_num);
-}
-
-void gen_adst_B_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_idx) {
- int size = 1 << (adst_idx + 1);
- for (int ni = 0; ni < size / 2; ni++) {
- int nOut = node_idx + ni;
- int nIn = nOut + size / 2;
- connect_node(node, stage_num, node_num, stage_idx + 1, nOut, nOut, 1, nIn,
- 1);
- // printf("nOut: %d nIn: %d\n", nOut, nIn);
- }
- for (int ni = size / 2; ni < size; ni++) {
- int nOut = node_idx + ni;
- int nIn = nOut - size / 2;
- connect_node(node, stage_num, node_num, stage_idx + 1, nOut, nOut, -1, nIn,
- 1);
- // printf("ndctOut: %d nIn: %d\n", nOut, nIn);
- }
-}
-
-void gen_adst_U_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_idx, int adst_node_num) {
- int size = 1 << (adst_idx + 1);
- for (int ni = 0; ni < adst_node_num; ni += size) {
- gen_adst_B_graph(node, stage_num, node_num, stage_idx, node_idx + ni,
- adst_idx);
- }
-}
-
-void gen_adst_T_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, double freq) {
- connect_node(node, stage_num, node_num, stage_idx + 1, node_idx, node_idx,
- cos(freq * PI), node_idx + 1, sin(freq * PI));
- connect_node(node, stage_num, node_num, stage_idx + 1, node_idx + 1,
- node_idx + 1, -cos(freq * PI), node_idx, sin(freq * PI));
-}
-
-void gen_adst_E_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_idx) {
- int size = 1 << (adst_idx);
- for (int i = 0; i < size / 2; i++) {
- int ni = i * 2;
- double fi = (1 + 4 * i) * 1.0 / (1 << (adst_idx + 1));
- gen_adst_T_graph(node, stage_num, node_num, stage_idx, node_idx + ni, fi);
- }
-}
-
-void gen_adst_V_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_idx, int adst_node_num) {
- int size = 1 << (adst_idx);
- for (int i = 0; i < adst_node_num / size; i++) {
- if (i % 2 == 1) {
- int ni = i * size;
- gen_adst_E_graph(node, stage_num, node_num, stage_idx, node_idx + ni,
- adst_idx);
- }
- }
-}
-void gen_adst_VJ_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num) {
- for (int i = 0; i < adst_node_num / 2; i++) {
- int ni = i * 2;
- double fi = (1 + 4 * i) * 1.0 / (4 * adst_node_num);
- gen_adst_T_graph(node, stage_num, node_num, stage_idx, node_idx + ni, fi);
- }
-}
-void gen_adst_Q_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num) {
- // reverse order when idx is 1, 3, 5, 7 ...
- // example of adst_node_num = 8:
- // 0 1 2 3 4 5 6 7
- // --> 0 7 2 5 4 3 6 1
- for (int ni = 0; ni < adst_node_num; ni++) {
- if (ni % 2 == 0) {
- int out = node_idx + ni;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, out, 1, out,
- 0);
- } else {
- int out = node_idx + ni;
- int in = node_idx + adst_node_num - ni;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
- }
-}
-void gen_adst_Ibar_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num) {
- // reverse order
- // 0 1 2 3 --> 3 2 1 0
- for (int ni = 0; ni < adst_node_num; ni++) {
- int out = node_idx + ni;
- int in = node_idx + adst_node_num - ni - 1;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
-}
-
-int get_Q_out2in(int adst_node_num, int out) {
- int in;
- if (out % 2 == 0) {
- in = out;
- } else {
- in = adst_node_num - out;
- }
- return in;
-}
-
-int get_Ibar_out2in(int adst_node_num, int out) {
- return adst_node_num - out - 1;
-}
-
-void gen_adst_IbarQ_graph(Node *node, int stage_num, int node_num,
- int stage_idx, int node_idx, int adst_node_num) {
- // in -> Ibar -> Q -> out
- for (int ni = 0; ni < adst_node_num; ni++) {
- int out = node_idx + ni;
- int in = node_idx +
- get_Ibar_out2in(adst_node_num, get_Q_out2in(adst_node_num, ni));
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
-}
-
-void gen_adst_D_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num) {
- // reverse order
- for (int ni = 0; ni < adst_node_num; ni++) {
- int out = node_idx + ni;
- int in = out;
- if (ni % 2 == 0) {
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- } else {
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, -1, in,
- 0);
- }
- }
-}
-
-int get_hadamard_idx(int x, int adst_node_num) {
- int max_bit = get_max_bit(adst_node_num - 1);
- x = bitwise_reverse(x, max_bit);
-
- // gray code
- int c = x & 1;
- int p = x & 1;
- int y = c;
-
- for (int i = 1; i <= max_bit; i++) {
- p = c;
- c = (x >> i) & 1;
- y += (c ^ p) << i;
- }
- return y;
-}
-
-void gen_adst_Ht_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num) {
- for (int ni = 0; ni < adst_node_num; ni++) {
- int out = node_idx + ni;
- int in = node_idx + get_hadamard_idx(ni, adst_node_num);
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, 1, in, 0);
- }
-}
-
-void gen_adst_HtD_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num) {
- for (int ni = 0; ni < adst_node_num; ni++) {
- int out = node_idx + ni;
- int in = node_idx + get_hadamard_idx(ni, adst_node_num);
- double inW;
- if (ni % 2 == 0)
- inW = 1;
- else
- inW = -1;
- connect_node(node, stage_num, node_num, stage_idx + 1, out, in, inW, in, 0);
- }
-}
-
-int get_adst_stage_num(int adst_node_num) {
- return 2 * get_max_bit(adst_node_num) + 2;
-}
-
-int gen_iadst_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num) {
- int max_bit = get_max_bit(adst_node_num);
- int si = 0;
- gen_adst_IbarQ_graph(node, stage_num, node_num, stage_idx + si, node_idx,
- adst_node_num);
- si++;
- gen_adst_VJ_graph(node, stage_num, node_num, stage_idx + si, node_idx,
- adst_node_num);
- si++;
- for (int adst_idx = max_bit - 1; adst_idx >= 1; adst_idx--) {
- gen_adst_U_graph(node, stage_num, node_num, stage_idx + si, node_idx,
- adst_idx, adst_node_num);
- si++;
- gen_adst_V_graph(node, stage_num, node_num, stage_idx + si, node_idx,
- adst_idx, adst_node_num);
- si++;
- }
- gen_adst_HtD_graph(node, stage_num, node_num, stage_idx + si, node_idx,
- adst_node_num);
- si++;
- return si + 1;
-}
-
-int gen_adst_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num) {
- int hybrid_stage_num = get_hybrid_stage_num(TYPE_ADST, adst_node_num);
- // generate a adst tempNode
- Node *tempNode = new Node[hybrid_stage_num * adst_node_num];
- init_graph(tempNode, hybrid_stage_num, adst_node_num);
- int si = gen_iadst_graph(tempNode, hybrid_stage_num, adst_node_num, 0, 0,
- adst_node_num);
-
- // tempNode's inverse graph to node[stage_idx][node_idx]
- gen_inv_graph(tempNode, hybrid_stage_num, adst_node_num, node, stage_num,
- node_num, stage_idx, node_idx);
- delete[] tempNode;
- return si;
-}
-
-void connect_layer_2d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int dct_node_num) {
- for (int first = 0; first < dct_node_num; first++) {
- for (int second = 0; second < dct_node_num; second++) {
- // int sIn = stage_idx;
- int sOut = stage_idx + 1;
- int nIn = node_idx + first * dct_node_num + second;
- int nOut = node_idx + second * dct_node_num + first;
-
- // printf("sIn: %d nIn: %d sOut: %d nOut: %d\n", sIn, nIn, sOut, nOut);
-
- connect_node(node, stage_num, node_num, sOut, nOut, nIn, 1, nIn, 0);
- }
- }
-}
-
-void connect_layer_2d_new(Node *node, int stage_num, int node_num,
- int stage_idx, int node_idx, int dct_node_num0,
- int dct_node_num1) {
- for (int i = 0; i < dct_node_num1; i++) {
- for (int j = 0; j < dct_node_num0; j++) {
- // int sIn = stage_idx;
- int sOut = stage_idx + 1;
- int nIn = node_idx + i * dct_node_num0 + j;
- int nOut = node_idx + j * dct_node_num1 + i;
-
- // printf("sIn: %d nIn: %d sOut: %d nOut: %d\n", sIn, nIn, sOut, nOut);
-
- connect_node(node, stage_num, node_num, sOut, nOut, nIn, 1, nIn, 0);
- }
- }
-}
-
-void gen_DCT_graph_2d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int dct_node_num) {
- int dct_stage_num = get_dct_stage_num(dct_node_num);
- // put 2 layers of dct_node_num DCTs on the graph
- for (int ni = 0; ni < dct_node_num; ni++) {
- gen_DCT_graph_1d(node, stage_num, node_num, stage_idx,
- node_idx + ni * dct_node_num, dct_node_num);
- gen_DCT_graph_1d(node, stage_num, node_num, stage_idx + dct_stage_num,
- node_idx + ni * dct_node_num, dct_node_num);
- }
- // connect first layer and second layer
- connect_layer_2d(node, stage_num, node_num, stage_idx + dct_stage_num - 1,
- node_idx, dct_node_num);
-}
-
-int get_hybrid_stage_num(int type, int hybrid_node_num) {
- if (type == TYPE_DCT || type == TYPE_IDCT) {
- return get_dct_stage_num(hybrid_node_num);
- } else if (type == TYPE_ADST || type == TYPE_IADST) {
- return get_adst_stage_num(hybrid_node_num);
- }
- return 0;
-}
-
-int get_hybrid_2d_stage_num(int type0, int type1, int hybrid_node_num) {
- int stage_num = 0;
- stage_num += get_hybrid_stage_num(type0, hybrid_node_num);
- stage_num += get_hybrid_stage_num(type1, hybrid_node_num);
- return stage_num;
-}
-
-int get_hybrid_2d_stage_num_new(int type0, int type1, int hybrid_node_num0,
- int hybrid_node_num1) {
- int stage_num = 0;
- stage_num += get_hybrid_stage_num(type0, hybrid_node_num0);
- stage_num += get_hybrid_stage_num(type1, hybrid_node_num1);
- return stage_num;
-}
-
-int get_hybrid_amplify_factor(int type, int hybrid_node_num) {
- return get_max_bit(hybrid_node_num) - 1;
-}
-
-void gen_hybrid_graph_1d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int hybrid_node_num, int type) {
- if (type == TYPE_DCT) {
- gen_DCT_graph_1d(node, stage_num, node_num, stage_idx, node_idx,
- hybrid_node_num);
- } else if (type == TYPE_ADST) {
- gen_adst_graph(node, stage_num, node_num, stage_idx, node_idx,
- hybrid_node_num);
- } else if (type == TYPE_IDCT) {
- int hybrid_stage_num = get_hybrid_stage_num(type, hybrid_node_num);
- // generate a dct tempNode
- Node *tempNode = new Node[hybrid_stage_num * hybrid_node_num];
- init_graph(tempNode, hybrid_stage_num, hybrid_node_num);
- gen_DCT_graph_1d(tempNode, hybrid_stage_num, hybrid_node_num, 0, 0,
- hybrid_node_num);
-
- // tempNode's inverse graph to node[stage_idx][node_idx]
- gen_inv_graph(tempNode, hybrid_stage_num, hybrid_node_num, node, stage_num,
- node_num, stage_idx, node_idx);
- delete[] tempNode;
- } else if (type == TYPE_IADST) {
- int hybrid_stage_num = get_hybrid_stage_num(type, hybrid_node_num);
- // generate a adst tempNode
- Node *tempNode = new Node[hybrid_stage_num * hybrid_node_num];
- init_graph(tempNode, hybrid_stage_num, hybrid_node_num);
- gen_adst_graph(tempNode, hybrid_stage_num, hybrid_node_num, 0, 0,
- hybrid_node_num);
-
- // tempNode's inverse graph to node[stage_idx][node_idx]
- gen_inv_graph(tempNode, hybrid_stage_num, hybrid_node_num, node, stage_num,
- node_num, stage_idx, node_idx);
- delete[] tempNode;
- }
-}
-
-void gen_hybrid_graph_2d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int hybrid_node_num, int type0,
- int type1) {
- int hybrid_stage_num = get_hybrid_stage_num(type0, hybrid_node_num);
-
- for (int ni = 0; ni < hybrid_node_num; ni++) {
- gen_hybrid_graph_1d(node, stage_num, node_num, stage_idx,
- node_idx + ni * hybrid_node_num, hybrid_node_num,
- type0);
- gen_hybrid_graph_1d(node, stage_num, node_num, stage_idx + hybrid_stage_num,
- node_idx + ni * hybrid_node_num, hybrid_node_num,
- type1);
- }
-
- // connect first layer and second layer
- connect_layer_2d(node, stage_num, node_num, stage_idx + hybrid_stage_num - 1,
- node_idx, hybrid_node_num);
-}
-
-void gen_hybrid_graph_2d_new(Node *node, int stage_num, int node_num,
- int stage_idx, int node_idx, int hybrid_node_num0,
- int hybrid_node_num1, int type0, int type1) {
- int hybrid_stage_num0 = get_hybrid_stage_num(type0, hybrid_node_num0);
-
- for (int ni = 0; ni < hybrid_node_num1; ni++) {
- gen_hybrid_graph_1d(node, stage_num, node_num, stage_idx,
- node_idx + ni * hybrid_node_num0, hybrid_node_num0,
- type0);
- }
- for (int ni = 0; ni < hybrid_node_num0; ni++) {
- gen_hybrid_graph_1d(
- node, stage_num, node_num, stage_idx + hybrid_stage_num0,
- node_idx + ni * hybrid_node_num1, hybrid_node_num1, type1);
- }
-
- // connect first layer and second layer
- connect_layer_2d_new(node, stage_num, node_num,
- stage_idx + hybrid_stage_num0 - 1, node_idx,
- hybrid_node_num0, hybrid_node_num1);
-}
-
-void gen_inv_graph(Node *node, int stage_num, int node_num, Node *invNode,
- int inv_stage_num, int inv_node_num, int inv_stage_idx,
- int inv_node_idx) {
- // clean up inNodeNum in invNode because of add_node
- for (int si = 1 + inv_stage_idx; si < inv_stage_idx + stage_num; si++) {
- for (int ni = inv_node_idx; ni < inv_node_idx + node_num; ni++) {
- int idx = get_idx(si, ni, inv_node_num);
- invNode[idx].inNodeNum = 0;
- }
- }
- // generate inverse graph of node on invNode
- for (int si = 1; si < stage_num; si++) {
- for (int ni = 0; ni < node_num; ni++) {
- int invSi = stage_num - si;
- int idx = get_idx(si, ni, node_num);
- for (int k = 0; k < node[idx].inNodeNum; k++) {
- int invNi = node[idx].inNodeIdx[k];
- add_node(invNode, inv_stage_num, inv_node_num, invSi + inv_stage_idx,
- invNi + inv_node_idx, ni + inv_node_idx,
- node[idx].inWeight[k]);
- }
- }
- }
-}
diff --git a/third_party/aom/tools/txfm_analyzer/txfm_graph.h b/third_party/aom/tools/txfm_analyzer/txfm_graph.h
deleted file mode 100644
index 2e3c9551e..000000000
--- a/third_party/aom/tools/txfm_analyzer/txfm_graph.h
+++ /dev/null
@@ -1,161 +0,0 @@
-/*
- * Copyright (c) 2018, Alliance for Open Media. All rights reserved
- *
- * This source code is subject to the terms of the BSD 2 Clause License and
- * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
- * was not distributed with this source code in the LICENSE file, you can
- * obtain it at www.aomedia.org/license/software. If the Alliance for Open
- * Media Patent License 1.0 was not distributed with this source code in the
- * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
- */
-
-#ifndef AOM_TOOLS_TXFM_ANALYZER_TXFM_GRAPH_H_
-#define AOM_TOOLS_TXFM_ANALYZER_TXFM_GRAPH_H_
-
-struct Node {
- Node *inNode[2];
- int inNodeNum;
- int inNodeIdx[2];
- double inWeight[2];
- double value;
- int nodeIdx;
- int stageIdx;
- int visited;
-};
-
-#define PI (3.141592653589793238462643383279502884)
-#define STAGENUM (10)
-#define NODENUM (32)
-#define COS_MOD (128)
-
-typedef enum {
- TYPE_DCT = 0,
- TYPE_ADST,
- TYPE_IDCT,
- TYPE_IADST,
- TYPE_LAST
-} TYPE_TXFM;
-
-TYPE_TXFM get_inv_type(TYPE_TXFM type);
-void get_fun_name(char *str_fun_name, int str_buf_size, const TYPE_TXFM type,
- const int txfm_size);
-
-void get_txfm_type_name(char *str_fun_name, int str_buf_size,
- const TYPE_TXFM type, const int txfm_size);
-void get_hybrid_2d_type_name(char *buf, int buf_size, const TYPE_TXFM type0,
- const TYPE_TXFM type1, const int txfm_size0,
- const int txfm_size1);
-unsigned int get_max_bit(unsigned int x);
-unsigned int bitwise_reverse(unsigned int x, int max_bit);
-int get_idx(int ri, int ci, int cSize);
-
-int get_dct_stage_num(int size);
-void reference_dct_1d(double *in, double *out, int size);
-void reference_dct_2d(double *in, double *out, int size);
-void connect_node(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int in0, double w0, int in1, double w1);
-void propagate(Node *node, int stage_num, int node_num, int stage);
-void init_graph(Node *node, int stage_num, int node_num);
-void graph_reset_visited(Node *node, int stage_num, int node_num);
-void gen_B_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N, int star);
-void gen_P_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N);
-
-void gen_type1_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N);
-void gen_type2_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N);
-void gen_type3_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int idx, int N);
-void gen_type4_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int idx, int N);
-
-void gen_R_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N);
-
-void gen_DCT_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int N);
-
-void gen_DCT_graph_1d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int dct_node_num);
-void connect_layer_2d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int dct_node_num);
-
-void gen_DCT_graph_2d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int dct_node_num);
-
-void gen_adst_B_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_idx);
-
-void gen_adst_U_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_idx, int adst_node_num);
-void gen_adst_T_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, double freq);
-
-void gen_adst_E_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_idx);
-
-void gen_adst_V_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_idx, int adst_node_num);
-
-void gen_adst_VJ_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num);
-void gen_adst_Q_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num);
-void gen_adst_Ibar_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num);
-
-void gen_adst_D_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num);
-
-int get_hadamard_idx(int x, int adst_node_num);
-void gen_adst_Ht_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num);
-
-int gen_adst_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num);
-int gen_iadst_graph(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int adst_node_num);
-void reference_adst_1d(double *in, double *out, int size);
-
-int get_adst_stage_num(int adst_node_num);
-int get_hybrid_stage_num(int type, int hybrid_node_num);
-int get_hybrid_2d_stage_num(int type0, int type1, int hybrid_node_num);
-int get_hybrid_2d_stage_num_new(int type0, int type1, int hybrid_node_num0,
- int hybrid_node_num1);
-int get_hybrid_amplify_factor(int type, int hybrid_node_num);
-void gen_hybrid_graph_1d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int hybrid_node_num, int type);
-void gen_hybrid_graph_2d(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int hybrid_node_num, int type0,
- int type1);
-void gen_hybrid_graph_2d_new(Node *node, int stage_num, int node_num,
- int stage_idx, int node_idx, int hybrid_node_num0,
- int hybrid_node_num1, int type0, int type1);
-
-void reference_hybrid_2d(double *in, double *out, int size, int type0,
- int type1);
-
-void reference_hybrid_2d_new(double *in, double *out, int size0, int size1,
- int type0, int type1);
-void reference_adst_dct_2d(double *in, double *out, int size);
-
-void gen_code(Node *node, int stage_num, int node_num, TYPE_TXFM type);
-
-void gen_inv_graph(Node *node, int stage_num, int node_num, Node *invNode,
- int inv_stage_num, int inv_node_num, int inv_stage_idx,
- int inv_node_idx);
-
-TYPE_TXFM hybrid_char_to_int(char ctype);
-
-int64_t round_shift(int64_t value, int bit);
-void round_shift_array(int32_t *arr, int size, int bit);
-void estimate_value(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int estimate_bit);
-void amplify_value(Node *node, int stage_num, int node_num, int stage_idx,
- int node_idx, int estimate_bit);
-void propagate_estimate_amlify(Node *node, int stage_num, int node_num,
- int stage_idx, int amplify_bit,
- int estimate_bit);
-#endif // AOM_TOOLS_TXFM_ANALYZER_TXFM_GRAPH_H_
diff --git a/third_party/aom/tools/wrap-commit-msg.py b/third_party/aom/tools/wrap-commit-msg.py
deleted file mode 100755
index 1c7882443..000000000
--- a/third_party/aom/tools/wrap-commit-msg.py
+++ /dev/null
@@ -1,72 +0,0 @@
-#!/usr/bin/env python
-##
-## Copyright (c) 2016, Alliance for Open Media. All rights reserved
-##
-## This source code is subject to the terms of the BSD 2 Clause License and
-## the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
-## was not distributed with this source code in the LICENSE file, you can
-## obtain it at www.aomedia.org/license/software. If the Alliance for Open
-## Media Patent License 1.0 was not distributed with this source code in the
-## PATENTS file, you can obtain it at www.aomedia.org/license/patent.
-##
-"""Wraps paragraphs of text, preserving manual formatting
-
-This is like fold(1), but has the special convention of not modifying lines
-that start with whitespace. This allows you to intersperse blocks with
-special formatting, like code blocks, with written prose. The prose will
-be wordwrapped, and the manual formatting will be preserved.
-
- * This won't handle the case of a bulleted (or ordered) list specially, so
- manual wrapping must be done.
-
-Occasionally it's useful to put something with explicit formatting that
-doesn't look at all like a block of text inline.
-
- indicator = has_leading_whitespace(line);
- if (indicator)
- preserve_formatting(line);
-
-The intent is that this docstring would make it through the transform
-and still be legible and presented as it is in the source. If additional
-cases are handled, update this doc to describe the effect.
-"""
-
-__author__ = "jkoleszar@google.com"
-import textwrap
-import sys
-
-def wrap(text):
- if text:
- return textwrap.fill(text, break_long_words=False) + '\n'
- return ""
-
-
-def main(fileobj):
- text = ""
- output = ""
- while True:
- line = fileobj.readline()
- if not line:
- break
-
- if line.lstrip() == line:
- text += line
- else:
- output += wrap(text)
- text=""
- output += line
- output += wrap(text)
-
- # Replace the file or write to stdout.
- if fileobj == sys.stdin:
- fileobj = sys.stdout
- else:
- fileobj.seek(0)
- fileobj.truncate(0)
- fileobj.write(output)
-
-if __name__ == "__main__":
- if len(sys.argv) > 1:
- main(open(sys.argv[1], "r+"))
- else:
- main(sys.stdin)