/************************************************************************* ** CMapTest.cpp ** ** ** ** This file is part of dvisvgm -- a fast DVI to SVG converter ** ** Copyright (C) 2005-2024 Martin Gieseking ** ** ** ** This program is free software; you can redistribute it and/or ** ** modify it under the terms of the GNU General Public License as ** ** published by the Free Software Foundation; either version 3 of ** ** the License, or (at your option) any later version. ** ** ** ** This program is distributed in the hope that it will be useful, but ** ** WITHOUT ANY WARRANTY; without even the implied warranty of ** ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ** ** GNU General Public License for more details. ** ** ** ** You should have received a copy of the GNU General Public License ** ** along with this program; if not, see . ** *************************************************************************/ #include #include "CMap.hpp" using namespace std; #define CHECK_RANGE(name, cmap, cmin, cmax, cid_min) \ {SCOPED_TRACE(name); check_range(cmap, cmin, cmax, cid_min);} #define CHECK_ZERO(name, cmap, cmin, cmax) \ {SCOPED_TRACE(name); check_zero(cmap, cmin, cmax);} static void check_range (const SegmentedCMap &cmap, int min, int max, int cid_min) { for (int i=min; i <= max; i++) ASSERT_EQ(cmap.cid(i), uint32_t(cid_min+(i-min))); } static void check_zero (const SegmentedCMap &cmap, int min, int max) { for (int i=min; i <= max; i++) ASSERT_EQ(cmap.cid(i), 0u); } TEST(SegmentedCMapTest, disjoint_ranges) { SegmentedCMap cmap("test"); cmap.addCIDRange(5, 8, 1); ASSERT_EQ(cmap.numCIDRanges(), 1u); CHECK_RANGE("A", cmap, 5, 8, 1); CHECK_ZERO("B", cmap, 0, 4); CHECK_ZERO("C", cmap, 9, 20); cmap.addCIDRange(10, 15, 5); ASSERT_EQ(cmap.numCIDRanges(), 2u); CHECK_RANGE("D", cmap, 5, 8, 1); CHECK_RANGE("E", cmap, 10, 15, 5); CHECK_ZERO("F", cmap, 0, 4); CHECK_ZERO("G", cmap, 9, 9); CHECK_ZERO("H", cmap, 16, 20); cmap.addCIDRange(0, 3, 50); ASSERT_EQ(cmap.numCIDRanges(), 3u); CHECK_RANGE("I", cmap, 0, 3, 50); CHECK_RANGE("J", cmap, 5, 8, 1); CHECK_RANGE("K", cmap, 10, 15, 5); CHECK_ZERO("L", cmap, 4, 4); CHECK_ZERO("M", cmap, 9, 9); CHECK_ZERO("N", cmap, 16, 20); cmap.addCIDRange(16, 20, 1); ASSERT_EQ(cmap.numCIDRanges(), 4u); CHECK_RANGE("O", cmap, 5, 8, 1); CHECK_RANGE("P", cmap, 10, 15, 5); CHECK_RANGE("Q", cmap, 0, 3, 50); CHECK_RANGE("R", cmap, 16, 20, 1); } TEST(SegmentedCMapTest, touching_ranges) { SegmentedCMap cmap("test"); cmap.addCIDRange(5, 8, 10); ASSERT_EQ(cmap.numCIDRanges(), 1u); CHECK_RANGE("A", cmap, 5, 8, 10); cmap.addCIDRange(9, 15, 14); ASSERT_EQ(cmap.numCIDRanges(), 1u); CHECK_RANGE("B", cmap, 5, 15, 10); cmap.addCIDRange(1, 4, 5); ASSERT_EQ(cmap.numCIDRanges(), 2u); CHECK_RANGE("C", cmap, 1, 4, 5); CHECK_RANGE("D", cmap, 5, 15, 10); cmap.addCIDRange(1, 4, 6); ASSERT_EQ(cmap.numCIDRanges(), 1u); CHECK_RANGE("E", cmap, 1, 15, 6); } TEST(SegmentedCMapTest, overlapping_ranges) { SegmentedCMap cmap("test"); cmap.addCIDRange(5, 8, 10); cmap.addCIDRange(7, 15, 12); ASSERT_EQ(cmap.numCIDRanges(), 1u); CHECK_RANGE("A", cmap, 5, 15, 10); cmap.addCIDRange(10, 20, 1); ASSERT_EQ(cmap.numCIDRanges(), 2u); CHECK_RANGE("B", cmap, 5, 9, 10); CHECK_RANGE("C", cmap, 10, 20, 1); cmap.addCIDRange(2, 7, 7); ASSERT_EQ(cmap.numCIDRanges(), 2u); CHECK_RANGE("D", cmap, 2, 9, 7); CHECK_RANGE("E", cmap, 10, 20, 1); cmap.addCIDRange(1, 12, 100); ASSERT_EQ(cmap.numCIDRanges(), 2u); CHECK_RANGE("F", cmap, 1, 12, 100); CHECK_RANGE("G", cmap, 13, 20, 4); cmap.addCIDRange(0, 30, 1); ASSERT_EQ(cmap.numCIDRanges(), 1u); CHECK_RANGE("H", cmap, 0, 30, 1); } TEST(SegmentedCMapTest, inner_ranges) { SegmentedCMap cmap("test"); cmap.addCIDRange(5, 20, 1); cmap.addCIDRange(10, 15, 6); ASSERT_EQ(cmap.numCIDRanges(), 1u); CHECK_RANGE("A", cmap, 5, 20, 1); cmap.addCIDRange(10, 15, 100); ASSERT_EQ(cmap.numCIDRanges(), 3u); CHECK_RANGE("B", cmap, 5, 9, 1); CHECK_RANGE("C", cmap, 10, 15, 100); CHECK_RANGE("D", cmap, 16, 20, 12); cmap.addCIDRange(15, 15, 50); ASSERT_EQ(cmap.numCIDRanges(), 4u); CHECK_RANGE("E", cmap, 5, 9, 1); CHECK_RANGE("F", cmap, 10, 14, 100); CHECK_RANGE("G", cmap, 15, 15, 50); CHECK_RANGE("H", cmap, 16, 20, 12); cmap.addCIDRange(6, 19, 1); ASSERT_EQ(cmap.numCIDRanges(), 3u); CHECK_RANGE("I", cmap, 5, 5, 1); CHECK_RANGE("J", cmap, 6, 19, 1); CHECK_RANGE("K", cmap, 20, 20, 16); }