/*
* PaperJam -- Commands
*
- * (c) 2018 Martin Mares <mj@ucw.cz>
+ * (c) 2018--2022 Martin Mares <mj@ucw.cz>
*/
#include <cassert>
};
static const arg_def no_args[] = {
- { NULL, 0 }
+ { NULL, 0, NULL }
};
/*** Generic routines ***/
-// Transformed page
-
-class xform_page : public page {
- page *orig_page;
- pdf_matrix xform;
-public:
- void render(out_context *out, pdf_matrix xform) override;
- xform_page(page *p, pdf_matrix xf);
-};
-
-xform_page::xform_page(page *p, pdf_matrix xf)
-{
- orig_page = p;
- index = p->index;
- xform = xf;
-
- BBox media(p->width, p->height);
- media.transform(xf);
- width = media.width();
- height = media.height();
-
- bbox = p->bbox;
- bbox.transform(xf);
-}
-
-void xform_page::render(out_context *out, pdf_matrix parent_xform)
-{
- orig_page->render(out, xform * parent_xform);
-}
-
// Commands acting on individual pages
class cmd_exec_simple : public cmd_exec {
return;
}
if (aw->given() != ah->given() || aname->given() == aw->given())
- die("Either paper format name or width and height must be given");
+ err("Either paper format name or width and height must be given");
if (aname->given())
{
const char *name = aname->as_string("").c_str();
const paper *pap = paperinfo(name);
if (!pap)
- die("No paper called %s is known", name);
+ err("No paper called \"%s\" is known", name);
w = paperpswidth(pap);
h = paperpsheight(pap);
}
};
#define PAPER_ARGS \
- { "paper", AT_STRING | AT_POSITIONAL }, \
- { "w", AT_DIMEN }, \
- { "h", AT_DIMEN }
+ { "paper", AT_STRING | AT_POSITIONAL, "Paper format name (e.g., a4)" }, \
+ { "w", AT_DIMEN, "Paper width" }, \
+ { "h", AT_DIMEN, "Paper height" }
// Position specification
pos_spec(string s)
{
if (s.size() != 2)
- die("Value of pos must have two characters");
+ err("Value of pos must have two characters");
if (s[0] == 't')
v = 1;
else if (s[0] == 'c')
else if (s[0] == 'b')
v = -1;
else
- die("First character of pos must be t/c/b");
+ err("First character of pos must be t/c/b");
if (s[1] == 'l')
h = -1;
else if (s[1] == 'c')
else if (s[1] == 'r')
h = 1;
else
- die("Second character of pos must be l/c/r");
+ err("Second character of pos must be l/c/r");
}
pos_spec(cmd *c) : pos_spec(c->arg("pos")->as_string("cc")) { }
pdf_matrix place(BBox &inner, BBox &outer)
};
#define POS_ARGS \
- { "pos", AT_STRING }
+ { "pos", AT_STRING, "Position on the page: (t|c|b)(l|c|r)" }
// Margins
{
bb->x_min += l;
bb->x_max -= r;
- bb->y_min += b;
- bb->y_max -= t;
+ bb->y_min += t;
+ bb->y_max -= b;
if (bb->x_min >= bb->x_max || bb->y_min >= bb->y_max)
- die("Margins cannot be larger than the whole page");
+ err("Margins cannot be larger than the whole page");
}
void expand_box(BBox *bb)
{
bb->x_min -= l;
bb->x_max += r;
- bb->y_min -= b;
- bb->y_max += t;
+ bb->y_min -= t;
+ bb->y_max += b;
}
};
-#define MARGIN_ARGS1_NAMED(name) \
- { name, AT_DIMEN }
+#define MARGIN_ARGS1_NAMED(name) \
+ { name, AT_DIMEN, "Size of all margins (default: 0)" }
+
+#define MARGIN_ARGS1_POSNL(name) \
+ { name, AT_DIMEN | AT_POSITIONAL, "Size of all margins (default: 0)" }
-#define MARGIN_ARGS1_POSNL(name) \
- { name, AT_DIMEN | AT_POSITIONAL }
+#define MARGIN_ARGS2(sx) \
+ { "h" sx, AT_DIMEN, "Size of horizontal margins" }, \
+ { "v" sx, AT_DIMEN, "Size of vertical margins" }, \
+ { "l" sx, AT_DIMEN, "Size of left margin" }, \
+ { "r" sx, AT_DIMEN, "Size of right margin" }, \
+ { "t" sx, AT_DIMEN, "Size of top margin" }, \
+ { "b" sx, AT_DIMEN, "Size of bottom margin" }
-#define MARGIN_ARGS2(sx) \
- { "h" sx, AT_DIMEN }, \
- { "v" sx, AT_DIMEN }, \
- { "l" sx, AT_DIMEN }, \
- { "r" sx, AT_DIMEN }, \
- { "t" sx, AT_DIMEN }, \
- { "b" sx, AT_DIMEN }
+// Colors
+
+class color_spec {
+public:
+ double rgb[3];
+ color_spec()
+ {
+ rgb[0] = rgb[1] = rgb[2] = 0;
+ }
+ color_spec(string s)
+ {
+ if (s.length() != 6)
+ err("Invalid color specification \"%s\": expecting 6 hex digits", s.c_str());
+ for (int i=0; i<3; i++)
+ {
+ int x = 0;
+ for (int j=0; j<2; j++)
+ {
+ char c = s[2*i+j];
+ if (c >= '0' && c <= '9')
+ x = (x << 4) | (c - '0');
+ else if (c >= 'a' && c <= 'f')
+ x = (x << 4) | (c - 'a' + 10);
+ else if (c >= 'A' && c <= 'F')
+ x = (x << 4) | (c - 'A' + 10);
+ }
+ rgb[i] = x / 255.;
+ }
+ }
+ string to_string()
+ {
+ return pdf_coord(rgb[0]) + " " + pdf_coord(rgb[1]) + " " + pdf_coord(rgb[2]);
+ }
+};
+
+// Cropmarks
+
+class cropmark_spec {
+public:
+ enum mark_type {
+ MARK_NONE,
+ MARK_BOX,
+ MARK_CROSS,
+ MARK_OUT,
+ MARK_IN,
+ MARK_BG,
+ } type;
+ double pen_width;
+ double arm_length;
+ double offset;
+ color_spec color;
+ cropmark_spec()
+ {
+ type = MARK_NONE;
+ pen_width = 0.2;
+ arm_length = 5*mm;
+ offset = 0;
+ egstate = QPDFObjectHandle::newNull();
+ }
+ cropmark_spec(cmd *c, const string prefix="", const string def_type="cross") : color(c->arg(prefix + "color")->as_string("000000"))
+ {
+ string t = c->arg(prefix + "mark")->as_string(def_type);
+ if (t == "none")
+ type = MARK_NONE;
+ else if (t == "box")
+ type = MARK_BOX;
+ else if (t == "cross")
+ type = MARK_CROSS;
+ else if (t == "in")
+ type = MARK_IN;
+ else if (t == "out")
+ type = MARK_OUT;
+ else if (t == "bg")
+ type = MARK_BG;
+ else
+ err("Invalid cropmark type %s", t.c_str());
+
+ pen_width = c->arg(prefix + "pen")->as_double(0.2);
+ arm_length = c->arg(prefix + "len")->as_double(5*mm);
+ offset = c->arg(prefix + "offset")->as_double(0);
+ egstate = QPDFObjectHandle::newNull();
+ }
+ bool is_bg() { return (type == MARK_BG); }
+ string pdf_stream(out_context *out, BBox &box, pdf_matrix &xform);
+private:
+ string crop_cross(double x, double y, uint mask);
+ QPDFObjectHandle egstate;
+};
+
+string cropmark_spec::crop_cross(double x, double y, uint mask)
+{
+ string s = "";
+
+ for (uint i=0; i<4; i++)
+ if (mask & (1U << i))
+ {
+ double x2 = x, y2 = y;
+ switch (i)
+ {
+ case 3: x2 -= arm_length; break;
+ case 2: x2 += arm_length; break;
+ case 1: y2 += arm_length; break;
+ case 0: y2 -= arm_length; break;
+ }
+ s += pdf_coord(x) + " " + pdf_coord(y) + " m " + pdf_coord(x2) + " " + pdf_coord(y2) + " l S ";
+ }
+
+ return s;
+}
+
+string cropmark_spec::pdf_stream(out_context *out, BBox &box, pdf_matrix &xform)
+{
+ if (type == MARK_NONE)
+ return "";
+
+ string s = "q ";
+ s += color.to_string() + (type == MARK_BG ? " rg " : " RG ");
+ s += xform.to_string() + " cm ";
+
+ if (egstate.isNull())
+ {
+ auto egs = QPDFObjectHandle::newDictionary();
+ egs.replaceKey("/Type", QPDFObjectHandle::newName("/ExtGState"));
+ egs.replaceKey("/LW", QPDFObjectHandle::newReal(pen_width, 1));
+ egs.replaceKey("/LC", QPDFObjectHandle::newInteger(2));
+ egs.replaceKey("/LJ", QPDFObjectHandle::newInteger(0));
+ egstate = out->pdf->makeIndirectObject(egs);
+ }
+
+ string egs_res = out->new_resource("GS");
+ out->egstates.replaceKey(egs_res, egstate);
+ s += egs_res + " gs ";
+
+ BBox b = box.enlarged(offset);
+
+ switch (type)
+ {
+ case MARK_NONE:
+ break;
+ case MARK_BOX:
+ s += b.to_rect() + " re S ";
+ break;
+ case MARK_CROSS:
+ s += crop_cross(b.x_min, b.y_min, 0b1111);
+ s += crop_cross(b.x_max, b.y_min, 0b1111);
+ s += crop_cross(b.x_max, b.y_max, 0b1111);
+ s += crop_cross(b.x_min, b.y_max, 0b1111);
+ break;
+ case MARK_IN:
+ s += crop_cross(b.x_min, b.y_min, 0b0110);
+ s += crop_cross(b.x_max, b.y_min, 0b1010);
+ s += crop_cross(b.x_max, b.y_max, 0b1001);
+ s += crop_cross(b.x_min, b.y_max, 0b0101);
+ break;
+ case MARK_OUT:
+ s += crop_cross(b.x_min, b.y_min, 0b1001);
+ s += crop_cross(b.x_max, b.y_min, 0b0101);
+ s += crop_cross(b.x_max, b.y_max, 0b0110);
+ s += crop_cross(b.x_min, b.y_max, 0b1010);
+ break;
+ case MARK_BG:
+ s += b.to_rect() + " re f ";
+ break;
+ }
+
+ s += "Q ";
+ return s;
+}
+
+#define CROPMARK_ARGS(px) \
+ { px "mark", AT_STRING, "Cropmark style: box/cross/in/out/bg" }, \
+ { px "pen", AT_DIMEN, "Cropmark pen width (default: 0.2pt)" }, \
+ { px "len", AT_DIMEN, "Cropmark arm length (default: 5mm)" }, \
+ { px "offset",AT_DIMEN, "Cropmark offset outside the box (default: 0)" }, \
+ { px "color", AT_STRING, "Cropmark color (RRGGBB, default: 000000)" }
// Scaling preserving aspect ratio
{
pdf_matrix m;
m.shift(x, y);
- return new xform_page(p, m);
+ return new xform_page(p, "move", m);
}
};
static const arg_def move_args[] = {
- { "x", AT_DIMEN | AT_MANDATORY | AT_POSITIONAL },
- { "y", AT_DIMEN | AT_MANDATORY | AT_POSITIONAL },
- { NULL, 0 }
+ { "x", AT_DIMEN | AT_MANDATORY | AT_POSITIONAL, "Move right by this distance" },
+ { "y", AT_DIMEN | AT_MANDATORY | AT_POSITIONAL, "Move up by this distance" },
+ { NULL, 0, NULL }
};
/*** scale ***/
{
pdf_matrix m;
m.scale(x_factor, y_factor);
- return new xform_page(p, m);
+ return new xform_page(p, "scale", m);
}
};
static const arg_def scale_args[] = {
- { "x", AT_DOUBLE | AT_MANDATORY | AT_POSITIONAL },
- { "y", AT_DOUBLE | AT_POSITIONAL },
- { NULL, 0 }
+ { "x", AT_DOUBLE | AT_MANDATORY | AT_POSITIONAL, "Scale horizontally by this fraction" },
+ { "y", AT_DOUBLE | AT_POSITIONAL, "Scale vertically by this fraction (default: x)" },
+ { NULL, 0, NULL }
};
/*** rotate ***/
public:
rotate_cmd(cmd *c)
{
- deg = c->arg("deg")->as_int(0) % 360;
+ deg = c->arg("angle")->as_int(0) % 360;
if (deg < 0)
deg += 360;
if (deg % 90)
- die("Rotate requires a multiple of 90 degrees");
+ err("The angle must be a multiple of 90 degrees");
}
page *process_page(page *p) override
{
- pdf_matrix m;
- switch (deg)
- {
- case 0:
- break;
- case 90:
- m.rotate_deg(-90);
- m.shift(0, p->width);
- break;
- case 180:
- m.rotate_deg(180);
- m.shift(p->width, p->height);
- break;
- case 270:
- m.rotate_deg(90);
- m.shift(p->height, 0);
- break;
- default:
- abort();
- }
- return new xform_page(p, m);
+ return new xform_page(p, "rotate", pdf_rotation_matrix(deg, p->width, p->height));
}
};
static const arg_def rotate_args[] = {
- { "angle", AT_INT | AT_MANDATORY | AT_POSITIONAL },
- { NULL, 0 }
+ { "angle", AT_INT | AT_MANDATORY | AT_POSITIONAL, "Rotate clockwise by this angle" },
+ { NULL, 0, NULL }
};
/*** flip ***/
horizontal = c->arg("h")->as_int(0);
vertical = c->arg("v")->as_int(0);
if (!horizontal && !vertical)
- die("Flip has no direction specified");
+ err("No direction specified");
}
page *process_page(page *p) override
{
m.scale(-1, 1);
m.shift(p->width, 0);
}
- return new xform_page(p, m);
+ return new xform_page(p, "flip", m);
}
};
static const arg_def flip_args[] = {
- { "h", AT_SWITCH },
- { "v", AT_SWITCH },
- { NULL, 0 }
+ { "h", AT_SWITCH, "Flip horizontally" },
+ { "v", AT_SWITCH, "Flip vertically" },
+ { NULL, 0, NULL }
};
/*** select ***/
return idx - 1;
if (idx <= -1 && idx >= (int) -pages.size())
return idx + pages.size();
- die("Page index %d out of range", idx);
+ err("Page index %d out of range", idx);
}
vector<page *> select_cmd::process(vector<page *> &pages)
int f = validate_page_index(pages, ps.from);
int t = validate_page_index(pages, ps.to);
int step = (f <= t) ? 1 : -1;
- for (int i=f; f<=t; f += step)
+ for (int i=f; i != t + step; i += step)
selected.push_back(pages[i]);
}
auto processed = run_command_list(pb->commands, selected);
{
n = c->arg("n")->as_int(0);
if (n <= 0)
- die("Modulo must have n > 0");
+ err("Modulo must have n > 0");
half = c->arg("half")->as_int(0);
pipe = c->pipe;
}
else if (i < 0 && i >= -n)
j = (tuples-1-tuple)*n + (-i) - 1;
else
- die("Modulo: invalid index %d", i);
+ err("Invalid index %d", i);
if (j < (int) pages.size())
tmp.push_back(pages[j]);
else
}
static const arg_def modulo_args[] = {
- { "n", AT_INT | AT_MANDATORY | AT_POSITIONAL },
- { "half", AT_SWITCH },
- { NULL, 0 }
+ { "n", AT_INT | AT_MANDATORY | AT_POSITIONAL, "Number of pages in a single tuple" },
+ { "half", AT_SWITCH, "Process only the first half of n-tuples" },
+ { NULL, 0, NULL }
};
-/*** draw-bbox ***/
+/*** debug ***/
-class draw_bbox_cmd : public cmd_exec {
+class debug_page : public page {
+ page *orig_page;
+ cropmark_spec *page_cm, *image_cm;
public:
- draw_bbox_cmd(cmd *c UNUSED) { }
- vector<page *> process(vector<page *> &pages) override;
+ debug_page(page *p, cropmark_spec *page_cms, cropmark_spec *image_cms) : page(p), orig_page(p), page_cm(page_cms), image_cm(image_cms) { }
+ void render(out_context *out, pdf_matrix xform) override
+ {
+ orig_page->render(out, xform);
+ BBox page_bbox = BBox(0, 0, width, height);
+ out->contents += page_cm->pdf_stream(out, page_bbox, xform);
+ out->contents += image_cm->pdf_stream(out, image_box, xform);
+ }
+ void debug_dump() override
+ {
+ debug("Draw debugging boxes");
+ orig_page->debug_dump();
+ }
};
-class draw_bbox_page : public page {
- page *orig_page;
+class debug_cmd : public cmd_exec_simple {
+ cropmark_spec page_cmarks;
+ cropmark_spec image_cmarks;
public:
- void render(out_context *out, pdf_matrix xform) override;
- draw_bbox_page(page *p) : page(p) { orig_page = p; }
+ debug_cmd(cmd *c UNUSED)
+ {
+ page_cmarks.type = cropmark_spec::MARK_BOX;
+ page_cmarks.color.rgb[0] = 1;
+ page_cmarks.color.rgb[1] = 0;
+ page_cmarks.color.rgb[2] = 0;
+ image_cmarks.type = cropmark_spec::MARK_BOX;
+ image_cmarks.color.rgb[0] = 0;
+ image_cmarks.color.rgb[1] = 1;
+ image_cmarks.color.rgb[2] = 0;
+ }
+ page *process_page(page *p) override
+ {
+ return new debug_page(p, &page_cmarks, &image_cmarks);
+ }
};
-void draw_bbox_page::render(out_context *out, pdf_matrix xform)
-{
- orig_page->render(out, xform);
- out->contents +=
- "q " +
- xform.to_string() + " cm " +
- "0 1 0 RG " +
- bbox.to_rect() + " re S " +
- "Q ";
-}
-
-vector<page *> draw_bbox_cmd::process(vector<page *> &pages)
-{
- vector<page *> out;
- for (auto p: pages)
- out.push_back(new draw_bbox_page(p));
- return out;
-}
-
/*** merge ***/
class merge_cmd : public cmd_exec {
{
width = p->width;
height = p->height;
- bbox = p->bbox;
+ image_box = p->image_box;
first = false;
}
else
{
if (!is_equal(width, p->width) || !is_equal(height, p->height))
- die("All pages participating in a merge must have the same dimensions");
- bbox.join(p->bbox);
+ err("All pages must have the same dimensions");
+ image_box.join(p->image_box);
}
}
}
for (auto p: orig_pages)
p->render(out, xform);
}
+ void debug_dump() override
+ {
+ debug("Merge pages");
+ debug_indent += 4;
+ for (auto p: orig_pages)
+ p->debug_dump();
+ debug_indent -= 4;
+ }
};
vector<page *> merge_cmd::process(vector<page *> &pages)
page *process_page(page *p) override
{
BBox paper_box = BBox(paper.w, paper.h);
- pdf_matrix xf = pos.place(p->bbox, paper_box);
- page *q = new xform_page(p, xf);
+ pdf_matrix xf = pos.place(p->image_box, paper_box);
+ page *q = new xform_page(p, "paper", xf);
q->width = paper.w;
q->height = paper.h;
return q;
static const arg_def paper_args[] = {
PAPER_ARGS,
POS_ARGS,
- { NULL, 0 }
+ { NULL, 0, NULL }
};
/*** scaleto ***/
xf.scale(scale_to_fit(orig_box, paper_box));
orig_box.transform(xf);
xf.concat(pos.place(orig_box, paper_box));
- page *q = new xform_page(p, xf);
+ page *q = new xform_page(p, "scaleto", xf);
q->width = paper.w;
q->height = paper.h;
return q;
static const arg_def scaleto_args[] = {
PAPER_ARGS,
POS_ARGS,
- { NULL, 0 }
+ { NULL, 0, NULL }
};
/*** fit ***/
if (!is_zero(paper.w) && !is_zero(paper.h))
{
// Paper given: scale image to fit paper
- BBox orig_box = p->bbox;
+ BBox orig_box = p->image_box;
BBox paper_box = BBox(paper.w, paper.h);
marg.shrink_box(&paper_box);
xf.scale(scale_to_fit(orig_box, paper_box));
orig_box.transform(xf);
xf.concat(pos.place(orig_box, paper_box));
- q = new xform_page(p, xf);
+ q = new xform_page(p, "fit", xf);
q->width = paper.w;
q->height = paper.h;
}
else
{
// No paper given: adjust paper to fit image
- xf.shift(-p->bbox.x_min, -p->bbox.y_min);
+ xf.shift(-p->image_box.x_min, -p->image_box.y_min);
xf.shift(marg.l, marg.b);
- q = new xform_page(p, xf);
- q->width = p->bbox.width() + marg.l + marg.r;
- q->height = p->bbox.height() + marg.t + marg.b;
+ q = new xform_page(p, "fit", xf);
+ q->width = p->image_box.width() + marg.l + marg.r;
+ q->height = p->image_box.height() + marg.t + marg.b;
}
return q;
}
POS_ARGS,
MARGIN_ARGS1_NAMED("margin"),
MARGIN_ARGS2("margin"),
- { NULL, 0 }
+ { NULL, 0, NULL }
};
/*** expand ***/
{
pdf_matrix xf;
xf.shift(marg.l, marg.b);
- page *q = new xform_page(p, xf);
+ page *q = new xform_page(p, "expand", xf);
q->width = p->width + marg.l + marg.r;
q->height = p->height + marg.t + marg.b;
if (q->width < 0.001 || q->height < 0.001)
- die("Expansion must result in positive page dimensions");
+ err("Expansion must result in positive page dimensions");
return q;
}
};
static const arg_def expand_args[] = {
MARGIN_ARGS1_POSNL("by"),
MARGIN_ARGS2(""),
- { NULL, 0 }
+ { NULL, 0, NULL }
};
/*** margins ***/
margins_cmd(cmd *c) : marg(c, "size", "") { }
page *process_page(page *p) override
{
- pdf_matrix xf;
- xf.shift(-p->bbox.x_min, -p->bbox.y_min);
- xf.shift(marg.l, marg.b);
- page *q = new xform_page(p, xf);
- q->width = p->bbox.width() + marg.l + marg.r;
- q->height = p->bbox.height() + marg.t + marg.b;
- if (q->width < 0.001 || q->height < 0.001)
- die("Margins must result in positive page dimensions");
+ page *q = new xform_page(p, "margins", pdf_matrix());
+ q->image_box = BBox(marg.l, marg.t, p->width - marg.r, p->height - marg.b);
+ if (q->image_box.width() < 0.001 || q->image_box.height() < 0.001)
+ err("Margins must result in positive image dimensions");
return q;
}
};
static const arg_def margins_args[] = {
MARGIN_ARGS1_POSNL("size"),
MARGIN_ARGS2(""),
- { NULL, 0 }
+ { NULL, 0, NULL }
};
/*** add-blank ***/
}
static const arg_def add_blank_args[] = {
- { "n", AT_INT | AT_POSITIONAL },
+ { "n", AT_INT | AT_POSITIONAL, "Number of blank pages to add (default: 1)" },
PAPER_ARGS,
- { NULL, 0 }
+ { NULL, 0, NULL }
};
/*** book ***/
{
n = c->arg("n")->as_int(0);
if (n % 4)
- die("Number of pages per signature must be divisible by 4");
+ err("Number of pages per signature must be divisible by 4");
}
vector<page *> process(vector<page *> &pages) override;
};
}
static const arg_def book_args[] = {
- { "n", AT_INT | AT_POSITIONAL },
- { NULL, 0 }
+ { "n", AT_INT | AT_POSITIONAL, "Number of pages in a single booklet" },
+ { NULL, 0, NULL }
};
/*** nup ***/
BY_TILE,
} fill_by;
bool crop;
+ bool mixed;
int rotate;
double scale;
paper_spec paper;
margin_spec marg;
pos_spec pos;
+ pos_spec tpos;
double hspace, vspace;
+ cropmark_spec cmarks;
// Processing state
page *process_single(vector<page *> &in);
void try_config(nup_state &st);
nup_state best;
bool found_solution;
+ BBox common_page_box;
public:
- nup_cmd(cmd *c) : paper(c), marg(c, "margin", "margin"), pos(c)
+ nup_cmd(cmd *c) : paper(c), marg(c, "margin", "margin"), pos(c), tpos(c->arg("tpos")->as_string("tl")), cmarks(c, "c", "none")
{
grid_n = c->arg("n")->as_int(0);
grid_m = c->arg("m")->as_int(0);
else if (grid_n > 0 && !grid_m)
num_tiles = grid_n;
else
- die("Grid size must be at least 1x1");
+ err("Grid size must be at least 1x1");
const string by = c->arg("by")->as_string("rows");
if (by == "rows" || by == "row" || by == "r")
else if (by == "tile" || by == "t")
fill_by = BY_TILE;
else
- die("Parameter \"by\" must be rows/cols/tile");
+ err("Argument \"by\" must be rows/cols/tile");
crop = c->arg("crop")->as_int(0);
+ mixed = c->arg("mixed")->as_int(0);
rotate = c->arg("rotate")->as_int(-1);
scale = c->arg("scale")->as_double(0);
vspace = c->arg("vspace")->as_double(space);
if (!is_zero(scale) && (!is_zero(paper.w) || rotate >= 0))
- die("When nup is used with explicit scaling, paper size nor rotation may be given");
+ err("When used with explicit scaling, paper size nor rotation may be given");
if (!is_zero(scale) && !grid_m)
- die("When nup is used with explicit scaling, both grid sizes must be given");
+ err("When used with explicit scaling, both grid sizes must be given");
}
vector<page *> process(vector<page *> &pages) override;
vector<page *> nup_cmd::process(vector<page *> &pages)
{
vector<page *> out;
- int i = 0;
+ // Unless mixed is given, find the common page size
+ if (!mixed)
+ {
+ for (int i=0; i < (int) pages.size(); i++)
+ {
+ page *p = pages[i];
+ BBox pb = crop ? p->image_box : BBox(p->width, p->height);
+ if (!i)
+ common_page_box = pb;
+ else
+ common_page_box.join(pb);
+ }
+ debug("NUP: Common page box [%.3f %.3f]-[%.3f %.3f]",
+ common_page_box.x_min, common_page_box.y_min, common_page_box.x_max, common_page_box.y_max);
+ }
+
+ // Process one tile set after another
+ int i = 0;
while (i < (int) pages.size())
{
vector<page *> in;
st.scale = scale_to_fit(image, window);
st.fill_factor = (st.scale*image.width() * st.scale*image.height()) / (st.paper_w * st.paper_h);
- debug("Try: %dx%d on %.3f x %.3f => scale %.3f, fill %.6f",
- st.cols, st.rows,
- st.paper_w, st.paper_h,
- st.scale, st.fill_factor);
+ if (debug_level > 1)
+ debug("Try: %dx%d on %.3f x %.3f => scale %.3f, fill %.6f",
+ st.cols, st.rows,
+ st.paper_w, st.paper_h,
+ st.scale, st.fill_factor);
if (!found_solution || best.fill_factor < st.fill_factor)
{
st.tile_w = st.tile_h = 0;
for (int i=0; i<num_tiles; i++)
{
- if (crop)
- page_boxes[i] = in[i]->bbox;
+ if (!mixed)
+ page_boxes[i] = common_page_box;
+ else if (crop)
+ page_boxes[i] = in[i]->image_box;
else
page_boxes[i] = BBox(in[i]->width, in[i]->height);
st.tile_w = max(st.tile_w, page_boxes[i].width());
}
}
- debug_indent -= 4;
if (!found_solution)
- die("Nup did not find a feasible solution");
+ err("No feasible solution found");
+ debug("Best: %dx%d on %.3f x %.3f => scale %.3f, fill %.6f",
+ best.cols, best.rows,
+ best.paper_w, best.paper_h,
+ best.scale, best.fill_factor);
+ debug_indent -= 4;
}
class nup_page : public page {
public:
vector<page *> orig_pages;
vector<pdf_matrix> xforms;
+ vector<BBox> tile_boxes;
+ cropmark_spec *cmarks;
void render(out_context *out, pdf_matrix xform) override;
nup_page(nup_state &st) : page(st.paper_w, st.paper_h) { }
+ void debug_dump() override
+ {
+ debug("N-up printing");
+ debug_indent += 4;
+ for (auto p: orig_pages)
+ p->debug_dump();
+ debug_indent -= 4;
+ }
};
void nup_page::render(out_context *out, pdf_matrix parent_xform)
{
for (int i=0; i < (int) orig_pages.size(); i++)
- orig_pages[i]->render(out, xforms[i] * parent_xform);
+ {
+ if (cmarks->is_bg())
+ out->contents += cmarks->pdf_stream(out, tile_boxes[i], parent_xform);
+ orig_pages[i]->render(out, xforms[i] * parent_xform);
+ if (!cmarks->is_bg())
+ out->contents += cmarks->pdf_stream(out, tile_boxes[i], parent_xform);
+ }
}
page *nup_cmd::process_single(vector<page *> &in)
{
BBox page_boxes[num_tiles];
find_config(in, page_boxes);
+ double tw = best.scale * best.tile_w;
+ double th = best.scale * best.tile_h;
- // Construct transform from paper to window with tiles
+ // Construct transform from paper to grid of tiles
BBox paper_box(best.paper_w, best.paper_h);
marg.shrink_box(&paper_box);
- BBox tile_box(best.cols * best.scale * best.tile_w + (best.cols-1) * hspace,
- best.rows * best.scale * best.tile_h + (best.rows-1) * vspace);
- pdf_matrix place_xform = pos.place(tile_box, paper_box);
+ BBox grid_box(best.cols * tw + (best.cols-1) * hspace,
+ best.rows * th + (best.rows-1) * vspace);
+ pdf_matrix place_xform = pos.place(grid_box, paper_box);
nup_page *p = new nup_page(best);
- p->bbox = tile_box;
- p->bbox.transform(place_xform);
+ p->image_box = grid_box;
+ p->image_box.transform(place_xform);
for (int i=0; i<num_tiles; i++)
{
}
pdf_matrix m;
- m.shift(-page_boxes[i].x_min, -page_boxes[i].y_min);
+ BBox &page_box = page_boxes[i];
+ m.shift(-page_box.x_min, -page_box.y_min);
m.scale(best.scale);
- m.shift(c * (best.scale*best.tile_w + hspace), (best.rows-1-r) * (best.scale*best.tile_h + vspace));
+ page_box.transform(m);
+
+ double x = c * (tw + hspace);
+ double y = (best.rows-1-r) * (th + vspace);
+ BBox tile_box = BBox(x, y, x+tw, y+th);
+ m.concat(tpos.place(page_box, tile_box));
p->orig_pages.push_back(in[i]);
p->xforms.push_back(m * place_xform);
+ p->tile_boxes.push_back(tile_box.transformed(place_xform));
+ p->cmarks = &cmarks;
}
return p;
}
static const arg_def nup_args[] = {
- { "n", AT_INT | AT_POSITIONAL | AT_MANDATORY },
- { "m", AT_INT | AT_POSITIONAL },
- { "by", AT_STRING },
- { "crop", AT_SWITCH },
- { "rotate", AT_SWITCH },
- { "scale", AT_DOUBLE },
+ { "n", AT_INT | AT_POSITIONAL | AT_MANDATORY, "Number of tiles on a page" },
+ { "m", AT_INT | AT_POSITIONAL, "If both n and m are given, produce n x m tiles on a page" },
+ { "by", AT_STRING, "Tile filling order: rows/cols/tile (default: rows)" },
+ { "crop", AT_SWITCH, "Crop input pages to their image box" },
+ { "mixed", AT_SWITCH, "Allow input pages of mixed sizes" },
+ { "rotate", AT_SWITCH, "Force (non-)rotation" },
+ { "scale", AT_DOUBLE, "Force specific scaling factor" },
PAPER_ARGS,
MARGIN_ARGS1_NAMED("margin"),
MARGIN_ARGS2("margin"),
POS_ARGS,
- { "space", AT_DIMEN },
- { "hspace", AT_DIMEN },
- { "vspace", AT_DIMEN },
- { NULL, 0 }
+ CROPMARK_ARGS("c"),
+ { "tpos", AT_STRING, "Position of images inside tiles (default: tl)" },
+ { "space", AT_DIMEN, "Space between tiles (default: 0)" },
+ { "hspace", AT_DIMEN, "Horizontal space between tiles (default: space)" },
+ { "vspace", AT_DIMEN, "Vertical space between tiles (default: space)" },
+ { NULL, 0, NULL }
+};
+
+/*** cropmarks ***/
+
+class cropmarks_page : public page {
+ page *orig_page;
+ cropmark_spec *cm;
+public:
+ void render(out_context *out, pdf_matrix xform) override
+ {
+ orig_page->render(out, xform);
+ out->contents += cm->pdf_stream(out, image_box, xform);
+ }
+ void debug_dump() override
+ {
+ debug("Add cropmarks");
+ orig_page->debug_dump();
+ }
+ cropmarks_page(page *p, cropmark_spec *cms) : page(p), orig_page(p), cm(cms) { }
+};
+
+class cropmarks_cmd : public cmd_exec_simple {
+ cropmark_spec cm;
+ page *process_page(page *p) override
+ {
+ return new cropmarks_page(p, &cm);
+ }
+public:
+ cropmarks_cmd(cmd *c) : cm(c) { }
+};
+
+static const arg_def cropmarks_args[] = {
+ CROPMARK_ARGS(""),
+ { NULL, 0, NULL }
+};
+
+/*** clip ***/
+
+class clip_page : public page {
+ page *orig_page;
+ BBox clip_to;
+public:
+ void render(out_context *out, pdf_matrix xform) override
+ {
+ out->contents += "q " + clip_to.transformed(xform).to_rect() + " re W n ";
+ orig_page->render(out, xform);
+ out->contents += "Q ";
+ }
+ void debug_dump() override
+ {
+ debug("Clip [%.3f %.3f %.3f %.3f]", clip_to.x_min, clip_to.y_min, clip_to.x_max, clip_to.y_max);
+ orig_page->debug_dump();
+ }
+ clip_page(page *p, BBox &to) : page(p), orig_page(p), clip_to(to) { }
+};
+
+class clip_cmd : public cmd_exec_simple {
+ double bleed;
+ page *process_page(page *p) override
+ {
+ BBox to = p->image_box.enlarged(bleed);
+ return new clip_page(p, to);
+ }
+public:
+ clip_cmd(cmd *c)
+ {
+ bleed = c->arg("bleed")->as_double(0);
+ }
+};
+
+static const arg_def clip_args[] = {
+ { "bleed", AT_DIMEN, "Allow bleeding of image outside its box" },
+ { NULL, 0, NULL }
+};
+
+/*** common ***/
+
+class common_cmd : public cmd_exec {
+ vector<page *> process(vector<page *> &pages) override
+ {
+ if (!pages.size())
+ return pages;
+
+ const page *first = pages[0];
+ BBox pbox(first->width, first->height);
+ BBox ibox = first->image_box;
+ for (auto p: pages)
+ {
+ BBox pg(p->width, p->height);
+ pbox.join(pg);
+ ibox.join(p->image_box);
+ }
+
+ vector<page *> out;
+ for (auto p: pages)
+ {
+ page *q = new xform_page(p, "common", pdf_matrix());
+ q->width = pbox.width();
+ q->height = pbox.height();
+ q->image_box = ibox;
+ out.push_back(q);
+ }
+
+ return out;
+ }
+public:
+ common_cmd(cmd *c UNUSED) { }
+};
+
+/*** slice ***/
+
+class slice_cmd : public cmd_exec {
+ paper_spec paper;
+ pos_spec pos;
+ margin_spec margin;
+ double bleed;
+public:
+ slice_cmd(cmd *c) : paper(c), pos(c), margin(c, "margin", "margin")
+ {
+ if (is_zero(paper.w) || is_zero(paper.h))
+ err("Paper format must be given");
+ bleed = c->arg("bleed")->as_double(0);
+ }
+ vector<page *> process(vector<page *> &pages) override;
+};
+
+vector<page *> slice_cmd::process(vector<page *> &pages)
+{
+ vector<page *> out;
+
+ for (auto p: pages)
+ {
+ double pw = paper.w - margin.l - margin.r;
+ double ph = paper.h - margin.t - margin.b;
+ if (pw < 0 || ph < 0)
+ err("Margins larger than paper");
+
+ int cols = (int) ceil((p->image_box.width() - 2*mm) / pw);
+ int rows = (int) ceil((p->image_box.height() - 2*mm) / ph);
+ BBox big_box(cols*pw, rows*ph);
+ pdf_matrix placement = pos.place(p->image_box, big_box);
+
+ debug("Slicing [%.3f,%.3f] to %dx%d [%.3f,%.3f]", p->image_box.width(), p->image_box.height(), rows, cols, pw, ph);
+ for (int r=0; r<rows; r++)
+ for (int c=0; c<cols; c++)
+ {
+ pdf_matrix xf = placement;
+ xf.shift(-c*pw, -(rows-1-r)*ph);
+ xf.shift(margin.l, margin.t);
+ page *q = new xform_page(p, "slice", xf);
+ q->width = paper.w;
+ q->height = paper.h;
+ BBox slice_box = BBox(margin.l, margin.t, paper.w - margin.r, paper.h - margin.b);
+ q->image_box = p->image_box.transformed(xf);
+ q->image_box.intersect(slice_box);
+ BBox bleeding_slice = slice_box.enlarged(bleed);
+ out.push_back(new clip_page(q, bleeding_slice));
+ }
+ }
+
+ return out;
+}
+
+static const arg_def slice_args[] = {
+ PAPER_ARGS,
+ POS_ARGS,
+ MARGIN_ARGS1_NAMED("margin"),
+ MARGIN_ARGS2("margin"),
+ { "bleed", AT_DIMEN, "Allow bleeding of image outside its box" },
+ { NULL, 0, NULL }
};
/*** Command table ***/
template<typename T> cmd_exec *ctor(cmd *c) { return new T(c); }
const cmd_def cmd_table[] = {
- { "null", no_args, 0, &ctor<null_cmd> },
- { "move", move_args, 0, &ctor<move_cmd> },
- { "scale", scale_args, 0, &ctor<scale_cmd> },
- { "rotate", rotate_args, 0, &ctor<rotate_cmd> },
- { "flip", flip_args, 0, &ctor<flip_cmd> },
- { "select", no_args, 1, &ctor<select_cmd> },
- { "apply", no_args, 1, &ctor<apply_cmd> },
- { "modulo", modulo_args, 1, &ctor<modulo_cmd> },
- { "draw-bbox",no_args, 0, &ctor<draw_bbox_cmd> },
- { "merge", no_args, 0, &ctor<merge_cmd> },
- { "paper", paper_args, 0, &ctor<paper_cmd> },
- { "scaleto", scaleto_args, 0, &ctor<scaleto_cmd> },
- { "fit", fit_args, 0, &ctor<fit_cmd> },
- { "expand", expand_args, 0, &ctor<expand_cmd> },
- { "margins", margins_args, 0, &ctor<margins_cmd> },
- { "add-blank",add_blank_args, 0, &ctor<add_blank_cmd> },
- { "book", book_args, 0, &ctor<book_cmd> },
- { "nup", nup_args, 0, &ctor<nup_cmd> },
- { NULL, NULL, 0, NULL }
+ { "add-blank",add_blank_args, 0, &ctor<add_blank_cmd>,
+ "Add blank page(s) after each page" },
+ { "apply", no_args, 1, &ctor<apply_cmd>,
+ "Apply commands to selected pages" },
+ { "book", book_args, 0, &ctor<book_cmd>,
+ "Prepare booklets for book binding" },
+ { "clip", clip_args, 0, &ctor<clip_cmd>,
+ "Suppress page contents drawn outside the image box" },
+ { "common", no_args, 0, &ctor<common_cmd>,
+ "Use a common page size and image box for all pages" },
+ { "cropmarks",cropmarks_args, 0, &ctor<cropmarks_cmd>,
+ "Draw cropping marks around the image box" },
+ { "debug", no_args, 0, &ctor<debug_cmd>,
+ "Draw debugging information on the page)" },
+ { "expand", expand_args, 0, &ctor<expand_cmd>,
+ "Expand paper around the image" },
+ { "fit", fit_args, 0, &ctor<fit_cmd>,
+ "Fit image to a given paper" },
+ { "flip", flip_args, 0, &ctor<flip_cmd>,
+ "Flip page horizontally and/or vertically" },
+ { "margins", margins_args, 0, &ctor<margins_cmd>,
+ "Define image box by dimensions of margins around it" },
+ { "merge", no_args, 0, &ctor<merge_cmd>,
+ "Merge all pages to one by placing them one over another" },
+ { "modulo", modulo_args, 1, &ctor<modulo_cmd>,
+ "Act on n-tuples of pages" },
+ { "move", move_args, 0, &ctor<move_cmd>,
+ "Shift contents on the page" },
+ { "null", no_args, 0, &ctor<null_cmd>,
+ "Do nothing" },
+ { "nup", nup_args, 0, &ctor<nup_cmd>,
+ "Combine multiple pages to one (n-up printing)" },
+ { "paper", paper_args, 0, &ctor<paper_cmd>,
+ "Place image on a given paper" },
+ { "rotate", rotate_args, 0, &ctor<rotate_cmd>,
+ "Rotate the page by multiples of 90 degrees" },
+ { "scale", scale_args, 0, &ctor<scale_cmd>,
+ "Scale the page by a given factor" },
+ { "scaleto", scaleto_args, 0, &ctor<scaleto_cmd>,
+ "Scale the page to a given size" },
+ { "select", no_args, 1, &ctor<select_cmd>,
+ "Select a subset of pages" },
+ { "slice", slice_args, 0, &ctor<slice_cmd>,
+ "Slice to smaller pages" },
+ { NULL, NULL, 0, NULL,
+ NULL, }
};